From 68e23b6814dfa05176a11eef2a0d3133fb1b7586 Mon Sep 17 00:00:00 2001 From: Bernd Hahnebach Date: Fri, 1 Mar 2019 19:57:34 +0100 Subject: [PATCH] Material: cards and templates, sort and move all general group attributes --- .../StandardMaterial/ABS-Generic.FCMat | 2 +- .../Acrylic-Glass-Generic.FCMat | 2 +- .../Material/StandardMaterial/AlMg3F24.FCMat | 8 +- .../StandardMaterial/AlMgSi1F31.FCMat | 8 +- .../StandardMaterial/AlZn4-5Mg1F35.FCMat | 8 +- .../StandardMaterial/Aluminum-6061-T6.FCMat | 4 +- .../StandardMaterial/Concrete-Generic.FCMat | 2 +- .../StandardMaterial/PA6-Generic.FCMat | 2 +- .../StandardMaterial/PET-Generic.FCMat | 2 +- .../StandardMaterial/PLA-Generic.FCMat | 2 +- .../StandardMaterial/PP-Generic.FCMat | 2 +- .../StandardMaterial/PTFE-Generic.FCMat | 2 +- .../StandardMaterial/PVC-Generic.FCMat | 2 +- .../StandardMaterial/Steel-15CrNi6.FCMat | 8 +- .../StandardMaterial/Steel-17CrNiMo6.FCMat | 8 +- .../StandardMaterial/Steel-1C22.FCMat | 8 +- .../StandardMaterial/Steel-1C35.FCMat | 8 +- .../StandardMaterial/Steel-1C45.FCMat | 8 +- .../StandardMaterial/Steel-1C60.FCMat | 8 +- .../StandardMaterial/Steel-20NiCrMo2.FCMat | 8 +- .../StandardMaterial/Steel-28Mn6.FCMat | 8 +- .../StandardMaterial/Steel-2C10.FCMat | 8 +- .../StandardMaterial/Steel-30CrNiMo8.FCMat | 8 +- .../StandardMaterial/Steel-34CrNiMo6.FCMat | 8 +- .../StandardMaterial/Steel-36CrNiMo4.FCMat | 8 +- .../StandardMaterial/Steel-36NiCrMo16.FCMat | 8 +- .../StandardMaterial/Steel-3C15.FCMat | 8 +- .../StandardMaterial/Steel-3C22.FCMat | 8 +- .../StandardMaterial/Steel-3C35.FCMat | 8 +- .../StandardMaterial/Steel-3V45.FCMat | 8 +- .../Material/StandardMaterial/Steel-C10.FCMat | 8 +- .../Material/StandardMaterial/Steel-C15.FCMat | 8 +- .../StandardMaterial/Steel-C22E.FCMat | 8 +- .../StandardMaterial/Steel-C25E.FCMat | 8 +- .../StandardMaterial/Steel-C30E.FCMat | 8 +- .../StandardMaterial/Steel-C40E.FCMat | 8 +- .../StandardMaterial/Steel-C50E.FCMat | 8 +- .../StandardMaterial/Steel-C55E.FCMat | 8 +- .../StandardMaterial/Steel-C60E.FCMat | 8 +- .../StandardMaterial/Steel-E295-GC.FCMat | 8 +- .../StandardMaterial/Steel-E295.FCMat | 8 +- .../StandardMaterial/Steel-E335-GC.FCMat | 8 +- .../StandardMaterial/Steel-E335.FCMat | 8 +- .../StandardMaterial/Steel-E360-GC.FCMat | 8 +- .../StandardMaterial/Steel-E360.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-100.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-150.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-200.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-250.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-300.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJL-350.FCMat | 8 +- .../Steel-EN-GJMB-350-10.FCMat | 8 +- .../Steel-EN-GJMB-550-4.FCMat | 8 +- .../Steel-EN-GJMB-650-2.FCMat | 8 +- .../Steel-EN-GJMW-350-4.FCMat | 8 +- .../Steel-EN-GJMW-360-12.FCMat | 8 +- .../Steel-EN-GJMW-400-5.FCMat | 8 +- .../Steel-EN-GJMW-450-7.FCMat | 8 +- .../Steel-EN-GJS-400-15.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-500-7.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-600-3.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-700-2.FCMat | 8 +- .../StandardMaterial/Steel-EN-GJS-800-1.FCMat | 8 +- .../StandardMaterial/Steel-G16Mn5.FCMat | 8 +- .../StandardMaterial/Steel-G200.FCMat | 8 +- .../StandardMaterial/Steel-G20Mn5.FCMat | 8 +- .../StandardMaterial/Steel-G230.FCMat | 8 +- .../StandardMaterial/Steel-G260.FCMat | 8 +- .../StandardMaterial/Steel-G300.FCMat | 8 +- .../StandardMaterial/Steel-G30Mn5.FCMat | 8 +- .../StandardMaterial/Steel-S185.FCMat | 8 +- .../StandardMaterial/Steel-S235JO.FCMat | 8 +- .../StandardMaterial/Steel-S235JR.FCMat | 8 +- .../StandardMaterial/Steel-S235JRG1.FCMat | 8 +- .../StandardMaterial/Steel-S260NC.FCMat | 8 +- .../StandardMaterial/Steel-S275JO.FCMat | 8 +- .../StandardMaterial/Steel-S275JR.FCMat | 8 +- .../StandardMaterial/Steel-S275N.FCMat | 8 +- .../StandardMaterial/Steel-S335JO.FCMat | 8 +- .../StandardMaterial/Steel-S335JR.FCMat | 8 +- .../StandardMaterial/Steel-S335N.FCMat | 8 +- .../StandardMaterial/Steel-S340MC.FCMat | 8 +- .../StandardMaterial/Steel-S355J2G3.FCMat | 8 +- .../StandardMaterial/Steel-S380MC.FCMat | 8 +- .../StandardMaterial/Steel-S420MC.FCMat | 8 +- .../StandardMaterial/Steel-S420N.FCMat | 8 +- .../StandardMaterial/Steel-S460MC.FCMat | 8 +- .../StandardMaterial/Steel-S460N.FCMat | 8 +- .../StandardMaterial/Steel-S500MC.FCMat | 8 +- .../StandardMaterial/Steel-S550MC.FCMat | 8 +- .../StandardMaterial/Steel-S690MC.FCMat | 8 +- .../StandardMaterial/Steel-St-37-2K.FCMat | 8 +- .../StandardMaterial/Steel-St-E-255.FCMat | 8 +- .../StandardMaterial/Steel-St-E-315.FCMat | 8 +- .../StandardMaterial/Steel-St-E-380.FCMat | 8 +- .../StandardMaterial/Steel-St-E-460.FCMat | 8 +- .../StandardMaterial/Steel-St-E-500.FCMat | 8 +- .../Steel-X2CrNiMoN17-13-3.FCMat | 8 +- .../StandardMaterial/Steel-X2CrNiN24-4.FCMat | 8 +- .../StandardMaterial/Steel-X39CrMo17-1.FCMat | 8 +- .../Steel-X3CrNiMo13-14.FCMat | 8 +- .../StandardMaterial/Steel-X5CrNi18-10.FCMat | 8 +- .../Steel-X5CrNiMo17-12-2.FCMat | 8 +- .../Steel-X6CrNiTi18-10.FCMat | 8 +- .../Material/StandardMaterial/TEMPLATE.FCMat | 45 ++-- .../StandardMaterial/Tools/Materials.csv | 224 +++++++++--------- .../StandardMaterial/Tools/Materials.ods | Bin 24486 -> 24391 bytes .../Material/StandardMaterial/Tools/headers | 14 +- 108 files changed, 530 insertions(+), 527 deletions(-) diff --git a/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat b/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat index 49dacf123d..6566732cc9 100644 --- a/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/ABS-Generic.FCMat @@ -7,11 +7,11 @@ Name = ABS Description = This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards. Father = Thermoplast +SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646 YoungsModulus = 2300 MPa UltimateTensileStrength = 38.8 MPa PoissonRatio = 0.37 Density = 1060 kg/m^3 -SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646 SpecificHeat = 2050 J/kg/K ThermalConductivity = 0.158 W/m/K ThermalExpansionCoefficient = 0.000093 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat b/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat index 97f0309e36..58e03add81 100644 --- a/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Acrylic-Glass-Generic.FCMat @@ -8,13 +8,13 @@ Name = Acrylic Glass Description = Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade names Plexiglas, Acrylite, Lucite, Perspex) a transparent thermoplastic often used in sheet form as a lightweight or shatter-resistant alternative to glass. DescriptionPL = Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA). Father = of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast +SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77 YoungsModulus = 2550 MPa UltimateTensileStrength = 57.7 MPa PoissonRatio = 0.38 CompressiveStrength = 103 MPa Density = 1160 kg/m^3 ShearModulus = 1.08 GPa -SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77 SpecificHeat = 1480 J/kg/K ThermalConductivity = 0.193 W/m/K ThermalExpansionCoefficient = 0.000075 m/m/K diff --git a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat index 82b8015581..230c04a367 100644 --- a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat @@ -7,14 +7,14 @@ Name = AlMg3F24 NameDE = AlMg3F24 Father = Metal -YoungsModulus = 70000 MPa -UltimateTensileStrength = 250 MPa -PoissonRatio = 0.3 -Density = 2700 kg/m^3 KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.3535.26 Norm = DIN 1725 +YoungsModulus = 70000 MPa +UltimateTensileStrength = 250 MPa +PoissonRatio = 0.3 +Density = 2700 kg/m^3 ShearModulus = 27000 MPa ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 5 diff --git a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat index 59715e17c9..739910e4b0 100644 --- a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat @@ -7,14 +7,14 @@ Name = AlMgSi1F31 NameDE = AlMgSi1F31 Father = Metal -YoungsModulus = 70000 MPa -UltimateTensileStrength = 310 MPa -PoissonRatio = 0.3 -Density = 2700 kg/m^3 KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.2315.72 Norm = DIN 1725 +YoungsModulus = 70000 MPa +UltimateTensileStrength = 310 MPa +PoissonRatio = 0.3 +Density = 2700 kg/m^3 ShearModulus = 27000 MPa ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat index 62ba9b99ba..4578eeb523 100644 --- a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat +++ b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat @@ -7,14 +7,14 @@ Name = AlZn4,5Mg1F35 NameDE = AlZn4,5Mg1F35 Father = Metal -YoungsModulus = 70000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 -Density = 2700 kg/m^3 KindOfMaterial = Aluminium KindOfMaterialDE = Aluminium MaterialNumber = 3.4335.71 Norm = DIN 1725 +YoungsModulus = 70000 MPa +UltimateTensileStrength = 350 MPa +PoissonRatio = 0.3 +Density = 2700 kg/m^3 ShearModulus = 27000 MPa ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat b/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat index 0841916b00..66a680516c 100644 --- a/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat +++ b/src/Mod/Material/StandardMaterial/Aluminum-6061-T6.FCMat @@ -7,11 +7,11 @@ Name = Aluminum 6061-T6 Description = Precipitation-hardened, Nonferrous Aluminum alloy Father = Metal +KindOfMaterial = Aluminium +KindOfMaterialDE = Aluminium YoungsModulus = 69000 MPa UltimateTensileStrength = 310 MPa PoissonRatio = 0.33 Density = 2700 kg/m^3 -KindOfMaterial = Aluminium -KindOfMaterialDE = Aluminium ThermalConductivity = 167 W/m/K ProductURL = https://en.wikipedia.org/wiki/6061_aluminium_alloy diff --git a/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat b/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat index 3bba9cb797..0a695c5a81 100644 --- a/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Concrete-Generic.FCMat @@ -7,9 +7,9 @@ Name = Concrete Description = A standard C-25 construction concrete Father = Aggregate +StandardCode = Masterformat 03 33 13 YoungsModulus = 32000 MPa PoissonRatio = 0.17 CompressiveStrength = 25 MPa Density = 2400 kg/m^3 -StandardCode = Masterformat 03 33 13 ProductURL = https://en.wikipedia.org/wiki/Concrete diff --git a/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat b/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat index 845cc354d3..f397c8ab83 100644 --- a/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PA6-Generic.FCMat @@ -5,12 +5,12 @@ [FCMat] Name = Polyamide 6 +SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1 YoungsModulus = 2930 MPa UltimateTensileStrength = 75.5 MPa PoissonRatio = 0.39 CompressiveStrength = 67.6 MPa Density = 1150 kg/m^3 -SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1 SpecificHeat = 1670 J/kg/K ThermalConductivity = 0.262 W/m/K ThermalExpansionCoefficient = 0.000082 m/m/K diff --git a/src/Mod/Material/StandardMaterial/PET-Generic.FCMat b/src/Mod/Material/StandardMaterial/PET-Generic.FCMat index 9043210905..d2f6bde2e0 100644 --- a/src/Mod/Material/StandardMaterial/PET-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PET-Generic.FCMat @@ -5,13 +5,13 @@ [FCMat] Name = PET +SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20 YoungsModulus = 3150 MPa UltimateTensileStrength = 38.8 MPa PoissonRatio = 0.36 CompressiveStrength = 38.0 MPa Density = 1380 kg/m^3 ShearModulus = 0.0385 GPa -SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20 SpecificHeat = 1140 J/kg/K ThermalConductivity = 0.181 W/m/K ThermalExpansionCoefficient = 0.000072 m/m/K diff --git a/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat b/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat index 20f6627d74..780585fab1 100644 --- a/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PLA-Generic.FCMat @@ -7,11 +7,11 @@ Name = PLA Description = Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane. Father = Thermoplast +SourceURL = https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf YoungsModulus = 3640 MPa UltimateTensileStrength = 26.4 MPa PoissonRatio = 0.36 Density = 1240 kg/m^3 -SourceURL = https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf SpecificHeat = 1800 J/kg/K ThermalConductivity = 0.130 W/m/K ThermalExpansionCoefficient = 0.000041 m/m/K diff --git a/src/Mod/Material/StandardMaterial/PP-Generic.FCMat b/src/Mod/Material/StandardMaterial/PP-Generic.FCMat index d312261b6c..fcce625198 100644 --- a/src/Mod/Material/StandardMaterial/PP-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PP-Generic.FCMat @@ -5,12 +5,12 @@ [FCMat] Name = Polypropylene +SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b YoungsModulus = 1470 MPa UltimateTensileStrength = 79.7 MPa PoissonRatio = 0.44 CompressiveStrength = 10 MPa Density = 916 kg/m^3 -SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b SpecificHeat = 1920 J/kg/K ThermalConductivity = 0.249 W/m/K ThermalExpansionCoefficient = 0.000123 m/m/K diff --git a/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat b/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat index 09e3f65235..4cd04a82b0 100644 --- a/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PTFE-Generic.FCMat @@ -5,12 +5,12 @@ [FCMat] Name = PTFE +SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843 YoungsModulus = 564 MPa UltimateTensileStrength = 34.6 MPa PoissonRatio = 0.46 CompressiveStrength = 10.2 MPa Density = 2070 kg/m^3 -SourceURL = http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843 SpecificHeat = 1010 J/kg/K ThermalConductivity = 0.263 W/m/K ThermalExpansionCoefficient = 0.000108 m/m/K diff --git a/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat b/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat index bbc9a50a51..c145f01ffe 100644 --- a/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/PVC-Generic.FCMat @@ -5,11 +5,11 @@ [FCMat] Name = PVC +SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079 YoungsModulus = 2800 MPa UltimateTensileStrength = 50 MPa PoissonRatio = 0.38 Density = 1380 kg/m^3 -SourceURL = http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079 SpecificHeat = 1000 J/kg/K ThermalConductivity = 0.150 W/m/K ThermalExpansionCoefficient = 0.000075 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat index 98ad804372..56efda7c4d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat @@ -9,14 +9,14 @@ Description = High-strength carbon steel DescriptionDE = höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder DescriptionPL = Wysokowytrzymała stal węglowa Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1000 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.5919 Norm = EN 10084 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1000 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 diff --git a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat index 9647413de3..c5f333e578 100644 --- a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat @@ -8,14 +8,14 @@ Name = 17CrNiMo6 NameDE = 17CrNiMo6 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1150 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6587 Norm = EN 10084 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1150 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 8 diff --git a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat index 3125dd39ec..2dbc62738b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat @@ -10,14 +10,14 @@ Description = Case hardened alloy steel DescriptionDE = kleiner Vergütungsdurchmesser, gut schweißbar DescriptionPL = Stal stopowa do nawęglania Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0402 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 400 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 27 diff --git a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat index a2d343ca81..6184666cd6 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat @@ -9,14 +9,14 @@ NameDE = C35 Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0501 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 480 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 diff --git a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat index 24f5bc723c..6610fae3dd 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat @@ -9,14 +9,14 @@ NameDE = C45 Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 580 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0503 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 580 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 diff --git a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat index ec8d67b9e4..a3e859eb93 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat @@ -9,14 +9,14 @@ NameDE = C60 Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0601 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 650 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 diff --git a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat index 6a481a0178..1abaa66461 100644 --- a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat @@ -8,14 +8,14 @@ Name = 20NiCrMo2 NameDE = 21NiCrMo2 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 900 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6523 Norm = EN 10084 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 900 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat index c5c6e2166f..24482e6203 100644 --- a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat @@ -7,14 +7,14 @@ Name = 28Mn6 NameDE = 28Mn6 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.117 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 800 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 diff --git a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat index 2b3540a36d..4f1e7a5d7d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat @@ -7,14 +7,14 @@ Name = 2C10 NameDE = Ck10 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 640 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.1121 Norm = EN 10084 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 640 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat index cbb67f2006..60debc87cf 100644 --- a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat @@ -8,14 +8,14 @@ Name = 30CrNiMo8 NameDE = 30CrNiMo8 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.658 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1250 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 diff --git a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat index ad280de957..fe8a71254f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat @@ -8,14 +8,14 @@ Name = 34CrNiMo6 NameDE = 34CrNiMo6 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1200 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6582 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1200 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 diff --git a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat index dc6d497a7d..fbe79484ed 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat @@ -8,14 +8,14 @@ Name = 36CrNiMo4 NameDE = 36CrNiMo4 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1100 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6511 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1100 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat index a3e11faf18..a1afb209a6 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat @@ -8,14 +8,14 @@ Name = 36NiCrMo16 NameDE = 36NiCrMo16 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6773 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 1250 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 diff --git a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat index eb43713368..1a21a076b8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat @@ -7,14 +7,14 @@ Name = 3C15 NameDE = Cm15 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 740 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.114 Norm = EN 10084 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 740 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat index 4efb7f0618..f97fff2720 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat @@ -7,14 +7,14 @@ Name = 3C22 NameDE = Cm22 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1149 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 550 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 diff --git a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat index 99ff6adc8f..d813c396ef 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat @@ -7,14 +7,14 @@ Name = 3C35 NameDE = Cm35 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 630 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.118 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 630 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 diff --git a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat index b1b1005b3b..418e159a28 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat @@ -7,14 +7,14 @@ Name = 3V45 NameDE = Cm45 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 700 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1201 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 700 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 diff --git a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat index 20f72b3a16..f6d1f8c471 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat @@ -7,14 +7,14 @@ Name = C10 NameDE = C10 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0301 Norm = DIN 17210 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 650 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 diff --git a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat index ed9a65e79b..e51784cb1d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat @@ -7,14 +7,14 @@ Name = C15 NameDE = C15 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0401 Norm = DIN 17210 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 750 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 diff --git a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat index 148560fec7..53f4f2c741 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat @@ -7,14 +7,14 @@ Name = C22E NameDE = Ck22 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1151 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 500 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 diff --git a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat index da56efc932..4144963b68 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat @@ -7,14 +7,14 @@ Name = C25E NameDE = Ck25 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1158 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 550 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 diff --git a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat index 745aa86aae..012b9861c2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat @@ -7,14 +7,14 @@ Name = C30E NameDE = Ck30 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1178 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 600 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 diff --git a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat index 3e19df2fdd..8228100ae5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat @@ -7,14 +7,14 @@ Name = C40E NameDE = Ck40 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1186 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 650 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 diff --git a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat index 0531ffb0eb..5cb322c846 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat @@ -7,14 +7,14 @@ Name = C50E NameDE = Ck50 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1206 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 750 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 diff --git a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat index 3e2a9f9143..38582d2019 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat @@ -7,14 +7,14 @@ Name = C55E NameDE = Ck55 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1203 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 800 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 diff --git a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat index 51ff47c9d2..6cef8d9d16 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat @@ -7,14 +7,14 @@ Name = C60E NameDE = Ck60 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 850 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1221 Norm = EN 10083-1 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 850 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 diff --git a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat index d94d04a451..bfb141760c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat @@ -7,14 +7,14 @@ Name = E295 GC NameDE = St50-2K Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0533 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 590 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat index 0f01bd4005..f3eb8d516a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat @@ -7,14 +7,14 @@ Name = E295 NameDE = St50-2 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 490 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.005 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 490 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 diff --git a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat index 3e72fdcf01..d33fda9653 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat @@ -7,14 +7,14 @@ Name = E335 GC NameDE = St60-2K Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0543 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 690 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat index 25fc93b0ec..8187b16eb5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat @@ -7,14 +7,14 @@ Name = E335 NameDE = St60-2 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.006 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 590 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 diff --git a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat index 5c37be6031..7039cae183 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat @@ -7,14 +7,14 @@ Name = E360 GC NameDE = St70-2K Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 780 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0633 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 780 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat index 8f49e6c466..2d8580abbe 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat @@ -7,14 +7,14 @@ Name = E360 NameDE = St70-2 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.007 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 690 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat index e8b9903c33..02844e12e5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat @@ -8,14 +8,14 @@ Name = EN-GJL-100 NameDE = GG-10 DescriptionDE = für gering beanspruchte Teile Father = Metal -YoungsModulus = 88000 MPa -UltimateTensileStrength = 100 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.601 Norm = EN 1561 +YoungsModulus = 88000 MPa +UltimateTensileStrength = 100 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 34000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat index c79c8972ff..c12a5983cd 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat @@ -8,14 +8,14 @@ Name = EN-GJL-150 NameDE = GG-15 DescriptionDE = für dünnwandige Teile wie Gehäuse, Ständer Father = Metal -YoungsModulus = 95000 MPa -UltimateTensileStrength = 150 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6015 Norm = EN 1561 +YoungsModulus = 95000 MPa +UltimateTensileStrength = 150 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 37000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat index 541b2074b5..e462d78426 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat @@ -8,14 +8,14 @@ Name = EN-GJL-200 NameDE = GG-20 DescriptionDE = Hebel, Lager , Lagerböcke Father = Metal -YoungsModulus = 105000 MPa -UltimateTensileStrength = 200 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.602 Norm = EN 1561 +YoungsModulus = 105000 MPa +UltimateTensileStrength = 200 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 40000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat index f3254851f7..db85c0262e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat @@ -7,14 +7,14 @@ Name = EN-GJL-250 NameDE = GG-25 Father = Metal -YoungsModulus = 115000 MPa -UltimateTensileStrength = 250 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6025 Norm = EN 1561 +YoungsModulus = 115000 MPa +UltimateTensileStrength = 250 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 44000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat index 431f48a857..38273f852a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat @@ -8,14 +8,14 @@ Name = EN-GJL-300 NameDE = GG-30 DescriptionDE = hochbeanspruchbar, für Motorständer, Lagerschalen Father = Metal -YoungsModulus = 125000 MPa -UltimateTensileStrength = 300 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.603 Norm = EN 1561 +YoungsModulus = 125000 MPa +UltimateTensileStrength = 300 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 48000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat index 81d453bbde..ac837e26fe 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat @@ -8,14 +8,14 @@ Name = EN-GJL-350 NameDE = GG-35 DescriptionDE = höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse Father = Metal -YoungsModulus = 135000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.6035 Norm = EN 1561 +YoungsModulus = 135000 MPa +UltimateTensileStrength = 350 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 52000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 15 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat index 2648f184ff..1e1a3a256b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMB-350-10 NameDE = GTS 35-10 DescriptionDE = gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8135 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 350 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat index 9a24406104..c6a0a19100 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMB-550-4 NameDE = GTS 55-04 DescriptionDE = Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8155 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 550 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat index f117368b0f..14721f203b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMB-650-2 NameDE = GTS 65-02 DescriptionDE = Gabelköpfe Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 650 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8165 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 650 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat index 3505d1e3ce..408aa71543 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMW-350-4 NameDE = GTW 35-04 DescriptionDE = dünnwandige Teile, Fittings, Beschläge, Förderketten Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8035 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 350 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 4 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat index 92f0ef93b5..3d3233a87e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMW-360-12 NameDE = GTW S38-12 DescriptionDE = für Verbundschweißteile Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 380 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8038 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 380 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 5 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat index ed856e77ef..4c3bac0abd 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMW-400-5 NameDE = GTW 40-05 DescriptionDE = gut schweißbar, Auspuffkrümmer, Schraubzwingen Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.804 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 400 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 7 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat index a01dfb1100..91e9f0a149 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat @@ -8,14 +8,14 @@ Name = EN-GJMW-450-7 NameDE = GTW 45-07 DescriptionDE = schlagfest, Fahrwerksteile Father = Metal -YoungsModulus = 175000 MPa -UltimateTensileStrength = 450 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.8045 Norm = EN 1562 +YoungsModulus = 175000 MPa +UltimateTensileStrength = 450 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat index ea9fa3f3cd..6ff84e377d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat @@ -8,14 +8,14 @@ Name = EN-GJS-400-15 NameDE = GGG-40 DescriptionDE = Pumpen-, Getriebegehäuse Father = Metal -YoungsModulus = 167000 MPa -UltimateTensileStrength = 400 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.704 Norm = EN 1563 +YoungsModulus = 167000 MPa +UltimateTensileStrength = 400 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 65000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat index 5ffdcb84cb..51cdecb378 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat @@ -8,14 +8,14 @@ Name = EN-GJS-500-7 NameDE = GGG-50 DescriptionDE = Seiltrommeln, Bremsteile, Zylinderköpfe Father = Metal -YoungsModulus = 170000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.705 Norm = EN 1563 +YoungsModulus = 170000 MPa +UltimateTensileStrength = 500 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 66000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat index 945874d5b2..4fe7c5ba21 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat @@ -8,14 +8,14 @@ Name = EN-GJS-600-3 NameDE = GGG-60 DescriptionDE = Kurbelwellen, Stangen Father = Metal -YoungsModulus = 177000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.706 Norm = EN 1563 +YoungsModulus = 177000 MPa +UltimateTensileStrength = 600 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat index 7aaea2493f..47575ef37c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat @@ -8,14 +8,14 @@ Name = EN-GJS-700-2 NameDE = GGG-70 DescriptionDE = Kurbelwellen, Zahnräder, Turbinenschaufeln Father = Metal -YoungsModulus = 180000 MPa -UltimateTensileStrength = 700 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.707 Norm = EN 1563 +YoungsModulus = 180000 MPa +UltimateTensileStrength = 700 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat index 65fec78bae..c5a6aa5589 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat @@ -8,14 +8,14 @@ Name = EN-GJS-800-1 NameDE = GGG-80 DescriptionDE = Zahnräder Father = Metal -YoungsModulus = 180000 MPa -UltimateTensileStrength = 800 MPa -PoissonRatio = 0.3 -Density = 7200 kg/m^3 KindOfMaterial = Cast iron KindOfMaterialDE = Guss MaterialNumber = 0.708 Norm = EN 1563 +YoungsModulus = 180000 MPa +UltimateTensileStrength = 800 MPa +PoissonRatio = 0.3 +Density = 7200 kg/m^3 ShearModulus = 67000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 diff --git a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat index e53c68f87b..7d750c99cd 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat @@ -8,14 +8,14 @@ Name = G16Mn5 NameDE = GS-16Mn5N DescriptionDE = Gehäuse, Zahnräder, Bremsscheiben Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.1131 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 430 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat index 9102077888..7a6efc63fb 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat @@ -8,14 +8,14 @@ Name = G200 NameDE = GS 38 DescriptionDE = mittlere dynamische und stoßartige Belastung, gut schweißbar Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 380 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.042 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 380 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 diff --git a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat index 712de33940..1facc4ec5e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat @@ -8,14 +8,14 @@ Name = G20Mn5 NameDE = GS-20Mn5v DescriptionDE = Gehäuse, Zahnräder, Bremsscheiben Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.112 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 500 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat index 8cecad86f0..0d42cccaa9 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat @@ -8,14 +8,14 @@ Name = G230 NameDE = GS 45 DescriptionDE = mittlere dynamische und stoßartige Belastung, gut schweißbar Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 450 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0446 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 450 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat index 6afbd5eb40..4058656834 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat @@ -7,14 +7,14 @@ Name = G260 NameDE = GS 52 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0552 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 diff --git a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat index 519c32919b..3d56f9e5f8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat @@ -7,14 +7,14 @@ Name = G300 NameDE = GS 60 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.0558 Norm = DIN 1681 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 600 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 diff --git a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat index 7559f1f68f..a2506c8492 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat @@ -7,14 +7,14 @@ Name = G30Mn5 NameDE = GS-30Mn5 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cast steel KindOfMaterialDE = Stahlguss MaterialNumber = 1.1165 Norm = DIN 17205 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 diff --git a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat index a397c0d7fc..bb9a64986f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat @@ -8,14 +8,14 @@ Name = S185 NameDE = St33 DescriptionDE = für geringe Beanspruchung Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 310 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0035 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 310 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat index a43519b724..81336c7c83 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat @@ -7,14 +7,14 @@ Name = S235JO NameDE = St37-3U Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0114 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 360 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat index 1073f54e84..9098def737 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat @@ -8,14 +8,14 @@ Name = S235JR NameDE = St37-2 DescriptionDE = üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0037 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 360 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat index 288bbf2c5b..91e99c4911 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat @@ -8,14 +8,14 @@ Name = S235JRG1 NameDE = USt37-2 DescriptionDE = üblich für mäßige Beanspruchung Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0036 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 360 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 diff --git a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat index e8bdc5ad01..8754c8d6b4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat @@ -8,14 +8,14 @@ Name = S260NC NameDE = QStE260 N DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 350 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0971 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 350 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 30 diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat index c7ccffb511..e7f5d3670d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat @@ -7,14 +7,14 @@ Name = S275JO NameDE = St44-3U Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0143 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 430 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat index 592bf2abaf..814833cd27 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat @@ -8,14 +8,14 @@ Name = S275JR NameDE = St44-2 DescriptionDE = Wellen, Achsen, gut bearbeitbar, gut schweißbar Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0044 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 430 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat index c391ebeb42..693950702e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat @@ -7,14 +7,14 @@ Name = S275N NameDE = St E 275 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 370 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.049 Norm = EN 10113-2 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 370 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat index 2a7edd6e0d..ccd8662177 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat @@ -7,14 +7,14 @@ Name = S335JO NameDE = St60-2U Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0553 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 510 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat index 383cd2fe62..61e69c7839 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat @@ -7,14 +7,14 @@ Name = S335JR NameDE = St53-3 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0045 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 510 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat index 0e236b95b9..45ecc9eb41 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat @@ -7,14 +7,14 @@ Name = S335N NameDE = St E 355 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 470 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0545 Norm = EN 10113-2 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 470 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat index 0ac687062e..6222f290d4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat @@ -8,14 +8,14 @@ Name = S340MC NameDE = QStE340 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0974 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 480 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 diff --git a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat index c915696f0c..6d6147e89a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat @@ -7,14 +7,14 @@ Name = S355J2G3 NameDE = St52-3 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.057 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 510 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 diff --git a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat index f59d37f83b..30671a6ee1 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat @@ -8,14 +8,14 @@ Name = S380MC NameDE = QStE380 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0978 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 23 diff --git a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat index f432bbbd5c..08ff934ae9 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat @@ -8,14 +8,14 @@ Name = S420MC NameDE = QStE420 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.098 Norm = EN 10149 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 550 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 diff --git a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat index a24bed698d..8628e3246c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat @@ -7,14 +7,14 @@ Name = S420N NameDE = St E 420 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8902 Norm = EN 10113-2 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 diff --git a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat index 7db98ece81..e2d29a5fc4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat @@ -8,14 +8,14 @@ Name = S460MC NameDE = QStE460 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0982 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 590 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 diff --git a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat index dffc6dbc16..6311fe0729 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat @@ -7,14 +7,14 @@ Name = S460N NameDE = St E 460 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8901 Norm = EN 10113-2 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 550 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 diff --git a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat index 16bd9d3a9a..684431333b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat @@ -8,14 +8,14 @@ Name = S500MC NameDE = QStE500 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 620 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0984 Norm = EN 10149 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 620 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 diff --git a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat index 10f13f394e..c7f3bc0142 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat @@ -8,14 +8,14 @@ Name = S550MC NameDE = QStE550 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 680 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0986 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 680 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 diff --git a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat index 1d039ca1c2..e7217c6639 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat @@ -8,14 +8,14 @@ Name = S690MC NameDE = QStE690 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 790 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0966 Norm = SEW 092 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 790 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat index 361bbe1ee6..ed7a0ea655 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat @@ -8,14 +8,14 @@ Name = St 37-2K NameDE = St 37-2K DescriptionDE = mäßige Beanspruchung Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 460 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Mild steel KindOfMaterialDE = Baustahl MaterialNumber = 1.0161 Norm = EN 10025 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 460 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat index 9c67a1ea9a..2893a37914 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat @@ -7,14 +7,14 @@ Name = St E 255 NameDE = St E 255 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0461 Norm = DIN 17102 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 360 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat index d88aa26768..182a0a54b7 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat @@ -7,14 +7,14 @@ Name = St E 315 NameDE = St E 315 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 440 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0505 Norm = DIN 17102 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 440 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat index 7244f1975a..bc3adaf452 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat @@ -7,14 +7,14 @@ Name = St E 380 NameDE = St E 380 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.89 Norm = DIN 17102 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 500 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat index 6c5fedb7bc..544b57882a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat @@ -7,14 +7,14 @@ Name = St E 460 NameDE = St E 460 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 560 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8905 Norm = DIN 17102 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 560 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat index feee28af63..9abb8a6ce3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat @@ -7,14 +7,14 @@ Name = St E 500 NameDE = St E 500 Father = Metal -YoungsModulus = 210000 MPa -UltimateTensileStrength = 610 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8907 Norm = DIN 17102 +YoungsModulus = 210000 MPa +UltimateTensileStrength = 610 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat index 04d2cac0be..46b904b060 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat @@ -8,14 +8,14 @@ Name = X2CrNiMoN17-13-3 NameDE = X2CrNiMoN 17 13 3 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher Father = Metal -YoungsModulus = 200000 MPa -UltimateTensileStrength = 580 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4429 Norm = EN 10088 +YoungsModulus = 200000 MPa +UltimateTensileStrength = 580 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 35 diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat index 24f994db22..34c563187d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat @@ -7,14 +7,14 @@ Name = X2CrNiN24-4 NameDE = - Father = Metal -YoungsModulus = 200000 MPa -UltimateTensileStrength = 600 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4362 Norm = EN 10088 +YoungsModulus = 200000 MPa +UltimateTensileStrength = 600 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 diff --git a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat index 6238d8e8e8..dcb6dbf441 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat @@ -7,14 +7,14 @@ Name = X39CrMo17-1 NameDE = - Father = Metal -YoungsModulus = 213000 MPa -UltimateTensileStrength = 750 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4122 Norm = EN 10088 +YoungsModulus = 213000 MPa +UltimateTensileStrength = 750 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 12 diff --git a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat index 18c016aeb1..0ce92f7a3e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat @@ -7,14 +7,14 @@ Name = X3CrNiMo13-14 NameDE = - Father = Metal -YoungsModulus = 216000 MPa -UltimateTensileStrength = 900 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4313 Norm = EN 10088 +YoungsModulus = 216000 MPa +UltimateTensileStrength = 900 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat index 6a6c6ed9a9..080b5562a6 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat @@ -8,14 +8,14 @@ Name = X5CrNi18-10 NameDE = X5CrNi 18 9 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik Father = Metal -YoungsModulus = 200000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4301 Norm = EN 10088 +YoungsModulus = 200000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat index 8cc4e5cbe6..9b3ac30708 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat @@ -8,14 +8,14 @@ Name = X5CrNiMo17-12-2 NameDE = X5CrNiMo 17 12 2 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik Father = Metal -YoungsModulus = 180000 MPa -UltimateTensileStrength = 520 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4401 Norm = EN 10088 +YoungsModulus = 180000 MPa +UltimateTensileStrength = 520 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 68000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 diff --git a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat index 15bb52474c..58312d0548 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat @@ -8,14 +8,14 @@ Name = X6CrNiTi18-10 NameDE = X10CrNiTi 18 9 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau Father = Metal -YoungsModulus = 200000 MPa -UltimateTensileStrength = 500 MPa -PoissonRatio = 0.3 -Density = 7800 kg/m^3 KindOfMaterial = Stainless steel KindOfMaterialDE = Niro MaterialNumber = 1.4541 Norm = EN 10088 +YoungsModulus = 200000 MPa +UltimateTensileStrength = 500 MPa +PoissonRatio = 0.3 +Density = 7800 kg/m^3 ShearModulus = 81000 MPa ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 diff --git a/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat b/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat index 40a40642e5..e699649541 100644 --- a/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat +++ b/src/Mod/Material/StandardMaterial/TEMPLATE.FCMat @@ -10,6 +10,9 @@ Name = ; Example of localized name. 2 letter codes as per ISO-639-1 https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes NameDE = +; Example of localized name. 2 letter codes as per ISO-639-1 https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes +NamePL = + ; More elaborate description of this material card: Description = @@ -22,6 +25,27 @@ DescriptionPL = ; Father of the material, i.e. for PLA is Thermoplast, for Steel is Metal Father = +; Description to be updated +KindOfMaterial = + +; Description to be updated +KindOfMaterialDE = + +; Description to be updated +MaterialNumber = + +; Description to be updated +Norm = + +; Description to be updated +ReferenceSource = + +; Description to be updated +SourceURL = + +; Description to be updated +StandardCode = + ; Young's Modulus (or E-Module) in [FreeCAD Pressure unit], see http://en.wikipedia.org/wiki/Young%27s_modulus for the details YoungsModulus = @@ -70,24 +94,9 @@ FractureToughness = ; Description to be updated FragmentShader = -; Description to be updated -KindOfMaterial = - -; Description to be updated -KindOfMaterialDE = - -; Description to be updated -MaterialNumber = - ; Description to be updated Model = -; Description to be updated -Norm = - -; Description to be updated -ReferenceSource = - ; Description to be updated SectionFillPattern = @@ -103,18 +112,12 @@ Shininess = ; Description to be updated SoundTransmissionClass = -; Description to be updated -SourceURL = - ; Description to be updated SpecificHeat = ; Description to be updated SpecularColor = -; Description to be updated -StandardCode = - ; Description to be updated TexturePath = diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.csv b/src/Mod/Material/StandardMaterial/Tools/Materials.csv index 5c6901f507..5a8a8e6d0d 100644 --- a/src/Mod/Material/StandardMaterial/Tools/Materials.csv +++ b/src/Mod/Material/StandardMaterial/Tools/Materials.csv @@ -1,112 +1,112 @@ -FileName|Name|NameDE|Description|DescriptionDE|DescriptionPL|Father|YoungsModulus|UltimateTensileStrength|PoissonRatio|AmbientColor|AngleOfFriction|Color|CompressiveStrength|Density|DiffuseColor|EmissiveColor|Enlargen|EnvironmentalEfficiencyClass|ExecutionInstructions|Finish|FireResistanceClass|FractureToughness|FragmentShader|KindOfMaterial|KindOfMaterialDE|MaterialNumber|Model|Norm|ReferenceSource|SectionFillPattern|SectionLinewidth|ShearModulus|Shininess|SoundTransmissionClass|SourceURL|SpecificHeat|SpecularColor|StandardCode|TexturePath|TextureScaling|ThermalConductivity|ThermalExpansionCoefficient|Transparency|UltimateStrain|UnitsPerQuantity|VertexShader|ViewColor|ViewFillPattern|ViewLinewidth|YieldStrength|ProductURL|SpecificPrice|Vendor -ABS-Generic|ABS||This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards.|||Thermoplast|2300 MPa|38.8 MPa|0.37|||||1060 kg/m^3|||||||||||||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646|2050 J/kg/K|||||0.158 W/m/K|0.000093 m/m/K||||||||44.1 MPa|https://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene|| -Acrylic-Glass-Generic|Acrylic Glass||Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade names Plexiglas, Acrylite, Lucite, Perspex) a transparent thermoplastic often used in sheet form as a lightweight or shatter-resistant alternative to glass.||Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA).|of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast|2550 MPa|57.7 MPa|0.38||||103 MPa|1160 kg/m^3||||||||||||||||||1.08 GPa|||http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77|1480 J/kg/K|||||0.193 W/m/K|0.000075 m/m/K||||||||73.7 MPa|https://en.wikipedia.org/wiki/Poly(methyl_methacrylate)|| -AlMg3F24|AlMg3F24|AlMg3F24||||Metal|70000 MPa|250 MPa|0.3|||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.3535.26||DIN 1725||||27000 MPa||||||||||0.000023 m/m/K||5||||||180 MPa||| -AlMgSi1F31|AlMgSi1F31|AlMgSi1F31||||Metal|70000 MPa|310 MPa|0.3|||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.2315.72||DIN 1725||||27000 MPa||||||||||0.000023 m/m/K||10||||||260 MPa||| -Aluminum-6061-T6|Aluminum 6061-T6||Precipitation-hardened, Nonferrous Aluminum alloy|||Metal|69000 MPa|310 MPa|0.33|||||2700 kg/m^3||||||||||Aluminium|Aluminium||||||||||||||||167 W/m/K||||||||||https://en.wikipedia.org/wiki/6061_aluminium_alloy|| -AlZn4-5Mg1F35|AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal|70000 MPa|350 MPa|0.3|||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.4335.71||DIN 1725||||27000 MPa||||||||||0.000023 m/m/K||10||||||290 MPa||| -CalculiX-Steel|CalculiX-Steel||Standard steel material for CalculiX sample calculations|||Metal|210000 MPa||0.3|||||7900 kg/m^3||||||||||||||||||||||590 J/kg/K|||||43 W/m/K|0.000012 m/m/K||||||||||| -Concrete-Generic|Concrete||A standard C-25 construction concrete|||Aggregate|32000 MPa||0.17||||25 MPa|2400 kg/m^3||||||||||||||||||||||||Masterformat 03 33 13|||||||||||||https://en.wikipedia.org/wiki/Concrete|| -Glass-E-GlassFibre|Glass-E||Glass Fibre|||Glass||3445 MPa|||||1080 MPa|2580 kg/m^3|||||||||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| -Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass|72000 MPa||0.22|||||2520 kg/m^3||||||||||||||||||||||||||||0.000009 m/m/K|||||||||https://en.wikipedia.org/wiki/Soda-lime_glass|| -Glass-S2-GlassFibre|Glass-S2||Glass Fibre|||Glass||4890 MPa|||||1600 MPa|2460 kg/m^3|||||||||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| -None|None||This is a not defined material|||None|0 MPa|0 MPa|0|||||0 kg/m^3||||||||||||||||||||||||||||||||||||||| -PA6-Generic|Polyamide 6||||||2930 MPa|75.5 MPa|0.39||||67.6 MPa|1150 kg/m^3|||||||||||||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1|1670 J/kg/K|||||0.262 W/m/K|0.000082 m/m/K||||||||70.5 MPa|https://en.wikipedia.org/wiki/Nylon_6|| -PET-Generic|PET||||||3150 MPa|38.8 MPa|0.36||||38.0 MPa|1380 kg/m^3||||||||||||||||||0.0385 GPa|||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20|1140 J/kg/K|||||0.181 W/m/K|0.000072 m/m/K||||||||62.8 MPa|https://en.wikipedia.org/wiki/Polyethylene_terephthalate|| -PLA-Generic|PLA||Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane.|||Thermoplast|3640 MPa|26.4 MPa|0.36|||||1240 kg/m^3|||||||||||||||||||||https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf|1800 J/kg/K|||||0.130 W/m/K|0.000041 m/m/K||||||||35.9 MPa|https://en.wikipedia.org/wiki/Polylactic_acid|| -PP-Generic|Polypropylene||||||1470 MPa|79.7 MPa|0.44||||10 MPa|916 kg/m^3|||||||||||||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b|1920 J/kg/K|||||0.249 W/m/K|0.000123 m/m/K||||||||32.8 MPa|https://en.wikipedia.org/wiki/Polypropylene|| -PTFE-Generic|PTFE||||||564 MPa|34.6 MPa|0.46||||10.2 MPa|2070 kg/m^3|||||||||||||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843|1010 J/kg/K|||||0.263 W/m/K|0.000108 m/m/K||||||||20.5 MPa|https://en.wikipedia.org/wiki/Polytetrafluoroethylene|| -PVC-Generic|PVC||||||2800 MPa|50 MPa|0.38|||||1380 kg/m^3|||||||||||||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079|1000 J/kg/K|||||0.150 W/m/K|0.000075 m/m/K|||||||||https://en.wikipedia.org/wiki/Polyvinyl_chloride|| -Steel-15CrNi6|15CrNi6||High-strength carbon steel|höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder|Wysokowytrzymała stal węglowa|Metal|210000 MPa|1000 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.5919||EN 10084||||81000 MPa||||||||||0.000011 m/m/K||9||||||680 MPa||| -Steel-17CrNiMo6|17CrNiMo6|17CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|1150 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.6587||EN 10084||||81000 MPa||||||||||0.000011 m/m/K||8||||||830 MPa||| -Steel-1C22|1C22|C22|Case hardened alloy steel|kleiner Vergütungsdurchmesser, gut schweißbar|Stal stopowa do nawęglania|Metal|210000 MPa|400 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0402||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||27||||||230 MPa||| -Steel-1C35|1C35|C35|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|210000 MPa|480 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0501||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||21||||||300 MPa||| -Steel-1C45|1C45|C45|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|210000 MPa|580 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0503||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||14||||||340 MPa||| -Steel-1C60|1C60|C60|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|210000 MPa|650 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0601||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||11||||||380 MPa||| -Steel-20NiCrMo2|20NiCrMo2|21NiCrMo2||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|900 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.6523||EN 10084||||81000 MPa||||||||||0.000011 m/m/K||10||||||630 MPa||| -Steel-28Mn6|28Mn6|28Mn6||||Metal|210000 MPa|800 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.117||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||13||||||590 MPa||| -Steel-2C10|2C10|Ck10||||Metal|210000 MPa|640 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.1121||EN 10084||||81000 MPa||||||||||0.000011 m/m/K||0||||||390 MPa||| -Steel-30CrNiMo8|30CrNiMo8|30CrNiMo8||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|1250 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.658||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||9||||||1050 MPa||| -Steel-34CrNiMo6|34CrNiMo6|34CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|1200 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6582||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||9||||||1000 MPa||| -Steel-36CrNiMo4|36CrNiMo4|36CrNiMo4||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|1100 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6511||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||10||||||900 MPa||| -Steel-36NiCrMo16|36NiCrMo16|36NiCrMo16||höchste Beanspruchung, Wellen, Zahnräder||Metal|210000 MPa|1250 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6773||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||9||||||1050 MPa||| -Steel-3C15|3C15|Cm15||||Metal|210000 MPa|740 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.114||EN 10084||||81000 MPa||||||||||0.000011 m/m/K||0||||||440 MPa||| -Steel-3C22|3C22|Cm22||||Metal|210000 MPa|550 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1149||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||24||||||350 MPa||| -Steel-3C35|3C35|Cm35||||Metal|210000 MPa|630 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.118||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||17||||||430 MPa||| -Steel-3V45|3V45|Cm45||||Metal|210000 MPa|700 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1201||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||14||||||500 MPa||| -Steel-C10|C10|C10||||Metal|210000 MPa|650 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0301||DIN 17210||||81000 MPa||||||||||0.000011 m/m/K||16||||||380 MPa||| -Steel-C15|C15|C15||||Metal|210000 MPa|750 MPa|0.3|||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0401||DIN 17210||||81000 MPa||||||||||0.000011 m/m/K||14||||||430 MPa||| -Steel-C22E|C22E|Ck22||||Metal|210000 MPa|500 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1151||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||20||||||340 MPa||| -Steel-C25E|C25E|Ck25||||Metal|210000 MPa|550 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1158||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||19||||||370 MPa||| -Steel-C30E|C30E|Ck30||||Metal|210000 MPa|600 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1178||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||18||||||400 MPa||| -Steel-C40E|C40E|Ck40||||Metal|210000 MPa|650 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1186||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||16||||||460 MPa||| -Steel-C50E|C50E|Ck50||||Metal|210000 MPa|750 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1206||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||13||||||520 MPa||| -Steel-C55E|C55E|Ck55||||Metal|210000 MPa|800 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1203||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||13||||||550 MPa||| -Steel-C60E|C60E|Ck60||||Metal|210000 MPa|850 MPa|0.3|||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1221||EN 10083-1||||81000 MPa||||||||||0.000011 m/m/K||13||||||580 MPa||| -Steel-E295|E295|St50-2||||Metal|210000 MPa|490 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.005||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||20||||||295 MPa||| -Steel-E295-GC|E295 GC|St50-2K||||Metal|210000 MPa|590 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0533||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||0||||||420 MPa||| -Steel-E335|E335|St60-2||||Metal|210000 MPa|590 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.006||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||16||||||335 MPa||| -Steel-E335-GC|E335 GC|St60-2K||||Metal|210000 MPa|690 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0543||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||0||||||490 MPa||| -Steel-E360|E360|St70-2||||Metal|210000 MPa|690 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.007||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||11||||||360 MPa||| -Steel-E360-GC|E360 GC|St70-2K||||Metal|210000 MPa|780 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0633||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||0||||||560 MPa||| -Steel-EN-GJL-100|EN-GJL-100|GG-10||für gering beanspruchte Teile||Metal|88000 MPa|100 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.601||EN 1561||||34000 MPa||||||||||0.00001 m/m/K||0||||||||| -Steel-EN-GJL-150|EN-GJL-150|GG-15||für dünnwandige Teile wie Gehäuse, Ständer||Metal|95000 MPa|150 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.6015||EN 1561||||37000 MPa||||||||||0.00001 m/m/K||0||||||98 MPa||| -Steel-EN-GJL-200|EN-GJL-200|GG-20||Hebel, Lager , Lagerböcke||Metal|105000 MPa|200 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.602||EN 1561||||40000 MPa||||||||||0.00001 m/m/K||0||||||130 MPa||| -Steel-EN-GJL-250|EN-GJL-250|GG-25||||Metal|115000 MPa|250 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.6025||EN 1561||||44000 MPa||||||||||0.00001 m/m/K||0||||||165 MPa||| -Steel-EN-GJL-300|EN-GJL-300|GG-30||hochbeanspruchbar, für Motorständer, Lagerschalen||Metal|125000 MPa|300 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.603||EN 1561||||48000 MPa||||||||||0.00001 m/m/K||0||||||195 MPa||| -Steel-EN-GJL-350|EN-GJL-350|GG-35||höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse||Metal|135000 MPa|350 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.6035||EN 1561||||52000 MPa||||||||||0.00001 m/m/K||15||||||228 MPa||| -Steel-EN-GJMB-350-10|EN-GJMB-350-10|GTS 35-10||gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse||Metal|175000 MPa|350 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8135||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||10||||||200 MPa||| -Steel-EN-GJMB-550-4|EN-GJMB-550-4|GTS 55-04||Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel||Metal|175000 MPa|550 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8155||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||2||||||340 MPa||| -Steel-EN-GJMB-650-2|EN-GJMB-650-2|GTS 65-02||Gabelköpfe||Metal|175000 MPa|650 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8165||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||2||||||430 MPa||| -Steel-EN-GJMW-350-4|EN-GJMW-350-4|GTW 35-04||dünnwandige Teile, Fittings, Beschläge, Förderketten||Metal|175000 MPa|350 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8035||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||4||||||||| -Steel-EN-GJMW-360-12|EN-GJMW-360-12|GTW S38-12||für Verbundschweißteile||Metal|175000 MPa|380 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8038||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||5||||||200 MPa||| -Steel-EN-GJMW-400-5|EN-GJMW-400-5|GTW 40-05||gut schweißbar, Auspuffkrümmer, Schraubzwingen||Metal|175000 MPa|400 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.804||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||7||||||220 MPa||| -Steel-EN-GJMW-450-7|EN-GJMW-450-7|GTW 45-07||schlagfest, Fahrwerksteile||Metal|175000 MPa|450 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.8045||EN 1562||||67000 MPa||||||||||0.00001 m/m/K||10||||||260 MPa||| -Steel-EN-GJS-400-15|EN-GJS-400-15|GGG-40||Pumpen-, Getriebegehäuse||Metal|167000 MPa|400 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.704||EN 1563||||65000 MPa||||||||||0.000011 m/m/K||15||||||250 MPa||| -Steel-EN-GJS-500-7|EN-GJS-500-7|GGG-50||Seiltrommeln, Bremsteile, Zylinderköpfe||Metal|170000 MPa|500 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.705||EN 1563||||66000 MPa||||||||||0.000011 m/m/K||2||||||320 MPa||| -Steel-EN-GJS-600-3|EN-GJS-600-3|GGG-60||Kurbelwellen, Stangen||Metal|177000 MPa|600 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.706||EN 1563||||67000 MPa||||||||||0.000011 m/m/K||2||||||370 MPa||| -Steel-EN-GJS-700-2|EN-GJS-700-2|GGG-70||Kurbelwellen, Zahnräder, Turbinenschaufeln||Metal|180000 MPa|700 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.707||EN 1563||||67000 MPa||||||||||0.000011 m/m/K||2||||||420 MPa||| -Steel-EN-GJS-800-1|EN-GJS-800-1|GGG-80||Zahnräder||Metal|180000 MPa|800 MPa|0.3|||||7200 kg/m^3||||||||||Cast iron|Guss|0.708||EN 1563||||67000 MPa||||||||||0.000011 m/m/K||2||||||480 MPa||| -Steel-G16Mn5|G16Mn5|GS-16Mn5N||Gehäuse, Zahnräder, Bremsscheiben||Metal|210000 MPa|430 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.1131||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||0||||||260 MPa||| -Steel-G200|G200|GS 38||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|210000 MPa|380 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.042||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||25||||||200 MPa||| -Steel-G20Mn5|G20Mn5|GS-20Mn5v||Gehäuse, Zahnräder, Bremsscheiben||Metal|210000 MPa|500 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.112||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||0||||||360 MPa||| -Steel-G230|G230|GS 45||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|210000 MPa|450 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0446||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||22||||||230 MPa||| -Steel-G260|G260|GS 52||||Metal|210000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0552||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||18||||||260 MPa||| -Steel-G300|G300|GS 60||||Metal|210000 MPa|600 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0558||DIN 1681||||81000 MPa||||||||||0.000011 m/m/K||15||||||300 MPa||| -Steel-G30Mn5|G30Mn5|GS-30Mn5||||Metal|210000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.1165||DIN 17205||||81000 MPa||||||||||0.000011 m/m/K||14||||||400 MPa||| -Steel-Generic|Steel-Generic||This is a blend Steel material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised steel cards.|||Metal|200000 MPa||0.3|||||7900 kg/m^3||||||||||||||||||||||500 J/kg/K|||||50 W/m/K|0.000012 m/m/K|||||||||https://en.wikipedia.org/wiki/Steel|| -Steel-S185|S185|St33||für geringe Beanspruchung||Metal|210000 MPa|310 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0035||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||18||||||190 MPa||| -Steel-S235JO|S235JO|St37-3U||||Metal|210000 MPa|360 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0114||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S235JR|S235JR|St37-2||üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen||Metal|210000 MPa|360 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0037||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S235JRG1|S235JRG1|USt37-2||üblich für mäßige Beanspruchung||Metal|210000 MPa|360 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0036||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||26||||||235 MPa||| -Steel-S260NC|S260NC|QStE260 N||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|210000 MPa|350 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0971||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||30||||||280 MPa||| -Steel-S275JO|S275JO|St44-3U||||Metal|210000 MPa|430 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0143||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||22||||||275 MPa||| -Steel-S275JR|S275JR|St44-2||Wellen, Achsen, gut bearbeitbar, gut schweißbar||Metal|210000 MPa|430 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0044||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||22||||||275 MPa||| -Steel-S275N|S275N|St E 275||||Metal|210000 MPa|370 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.049||EN 10113-2||||81000 MPa||||||||||0.000011 m/m/K||24||||||275 MPa||| -Steel-S335JO|S335JO|St60-2U||||Metal|210000 MPa|510 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0553||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S335JR|S335JR|St53-3||||Metal|210000 MPa|510 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0045||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S335N|S335N|St E 355||||Metal|210000 MPa|470 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0545||EN 10113-2||||81000 MPa||||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S340MC|S340MC|QStE340 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|210000 MPa|480 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0974||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||25||||||340 MPa||| -Steel-S355J2G3|S355J2G3|St52-3||||Metal|210000 MPa|510 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.057||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||22||||||355 MPa||| -Steel-S380MC|S380MC|QStE380 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0978||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||23||||||380 MPa||| -Steel-S420MC|S420MC|QStE420 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|550 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.098||EN 10149||||81000 MPa||||||||||0.000011 m/m/K||21||||||420 MPa||| -Steel-S420N|S420N|St E 420||||Metal|210000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8902||EN 10113-2||||81000 MPa||||||||||0.000011 m/m/K||19||||||420 MPa||| -Steel-S460MC|S460MC|QStE460 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|590 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0982||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||19||||||460 MPa||| -Steel-S460N|S460N|St E 460||||Metal|210000 MPa|550 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8901||EN 10113-2||||81000 MPa||||||||||0.000011 m/m/K||17||||||460 MPa||| -Steel-S500MC|S500MC|QStE500 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|620 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0984||EN 10149||||81000 MPa||||||||||0.000011 m/m/K||17||||||500 MPa||| -Steel-S550MC|S550MC|QStE550 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|680 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0986||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||15||||||550 MPa||| -Steel-S690MC|S690MC|QStE690 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|210000 MPa|790 MPa|0.3|||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0966||SEW 092||||81000 MPa||||||||||0.000011 m/m/K||15||||||690 MPa||| -Steel-St-37-2K|St 37-2K|St 37-2K||mäßige Beanspruchung||Metal|210000 MPa|460 MPa|0.3|||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0161||EN 10025||||81000 MPa||||||||||0.000011 m/m/K||0||||||320 MPa||| -Steel-St-E-255|St E 255|St E 255||||Metal|210000 MPa|360 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0461||DIN 17102||||81000 MPa||||||||||0.000011 m/m/K||0||||||260 MPa||| -Steel-St-E-315|St E 315|St E 315||||Metal|210000 MPa|440 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0505||DIN 17102||||81000 MPa||||||||||0.000011 m/m/K||0||||||320 MPa||| -Steel-St-E-380|St E 380|St E 380||||Metal|210000 MPa|500 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.89||DIN 17102||||81000 MPa||||||||||0.000011 m/m/K||0||||||380 MPa||| -Steel-St-E-460|St E 460|St E 460||||Metal|210000 MPa|560 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8905||DIN 17102||||81000 MPa||||||||||0.000011 m/m/K||0||||||460 MPa||| -Steel-St-E-500|St E 500|St E 500||||Metal|210000 MPa|610 MPa|0.3|||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8907||DIN 17102||||81000 MPa||||||||||0.000011 m/m/K||0||||||500 MPa||| -Steel-X2CrNiMoN17-13-3|X2CrNiMoN17-13-3|X2CrNiMoN 17 13 3||schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher||Metal|200000 MPa|580 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4429||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||35||||||295 MPa||| -Steel-X2CrNiN24-4|X2CrNiN24-4|-||||Metal|200000 MPa|600 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4362||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||25||||||400 MPa||| -Steel-X39CrMo17-1|X39CrMo17-1|-||||Metal|213000 MPa|750 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4122||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||12||||||500 MPa||| -Steel-X3CrNiMo13-14|X3CrNiMo13-14|-||||Metal|216000 MPa|900 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4313||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||11||||||800 MPa||| -Steel-X5CrNi18-10|X5CrNi18-10|X5CrNi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik||Metal|200000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4301||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||40||||||210 MPa||| -Steel-X5CrNiMo17-12-2|X5CrNiMo17-12-2|X5CrNiMo 17 12 2||schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik||Metal|180000 MPa|520 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4401||EN 10088||||68000 MPa||||||||||0.000011 m/m/K||40||||||220 MPa||| -Steel-X6CrNiTi18-10|X6CrNiTi18-10|X10CrNiTi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau||Metal|200000 MPa|500 MPa|0.3|||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4541||EN 10088||||81000 MPa||||||||||0.000011 m/m/K||40||||||200 MPa||| -Wood-Generic|Wood||A standard construction wood|||Aggregate|12000 MPa||0.05|||||700 kg/m^3|||||||||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Wood|| +FileName|Name|NameDE|Description|DescriptionDE|DescriptionPL|Father|KindOfMaterial|KindOfMaterialDE|MaterialNumber|Norm|ReferenceSource|SourceURL|StandardCode|YoungsModulus|UltimateTensileStrength|PoissonRatio|AmbientColor|AngleOfFriction|Color|CompressiveStrength|Density|DiffuseColor|EmissiveColor|Enlargen|EnvironmentalEfficiencyClass|ExecutionInstructions|Finish|FireResistanceClass|FractureToughness|FragmentShader|Model|SectionFillPattern|SectionLinewidth|ShearModulus|Shininess|SoundTransmissionClass|SpecificHeat|SpecularColor|TexturePath|TextureScaling|ThermalConductivity|ThermalExpansionCoefficient|Transparency|UltimateStrain|UnitsPerQuantity|VertexShader|ViewColor|ViewFillPattern|ViewLinewidth|YieldStrength|ProductURL|SpecificPrice|Vendor +ABS-Generic|ABS||This is a blend AcrylnitrilButadienStyrol (ABS) material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised ABS-blend cards.|||Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=eb7a78f5948d481c9493a67f0d089646||2300 MPa|38.8 MPa|0.37|||||1060 kg/m^3||||||||||||||||2050 J/kg/K||||0.158 W/m/K|0.000093 m/m/K||||||||44.1 MPa|https://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene|| +Acrylic-Glass-Generic|Acrylic Glass||Poly(methyl methacrylate) (PMMA, acrylic, acrylic glass, trade names Plexiglas, Acrylite, Lucite, Perspex) a transparent thermoplastic often used in sheet form as a lightweight or shatter-resistant alternative to glass.||Szkło akrylowe (szkło organiczne; inaczej pleksi, pleksiglas, metapleks) – przezroczyste tworzywo sztuczne, którego głównym składnikiem jest polimer – poli(metakrylan metylu) (PMMA).|of the material, i.e. for PLA is Thermoplast, for Steel is Metal Thermoplast||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=632572aeef2a4224b5ac8fbd4f1b6f77||2550 MPa|57.7 MPa|0.38||||103 MPa|1160 kg/m^3|||||||||||||1.08 GPa|||1480 J/kg/K||||0.193 W/m/K|0.000075 m/m/K||||||||73.7 MPa|https://en.wikipedia.org/wiki/Poly(methyl_methacrylate)|| +AlMg3F24|AlMg3F24|AlMg3F24||||Metal|Aluminium|Aluminium|3.3535.26|DIN 1725||||70000 MPa|250 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||5||||||180 MPa||| +AlMgSi1F31|AlMgSi1F31|AlMgSi1F31||||Metal|Aluminium|Aluminium|3.2315.72|DIN 1725||||70000 MPa|310 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||10||||||260 MPa||| +Aluminum-6061-T6|Aluminum 6061-T6||Precipitation-hardened, Nonferrous Aluminum alloy|||Metal|Aluminium|Aluminium||||||69000 MPa|310 MPa|0.33|||||2700 kg/m^3||||||||||||||||||||167 W/m/K||||||||||https://en.wikipedia.org/wiki/6061_aluminium_alloy|| +AlZn4-5Mg1F35|AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal|Aluminium|Aluminium|3.4335.71|DIN 1725||||70000 MPa|350 MPa|0.3|||||2700 kg/m^3|||||||||||||27000 MPa||||||||0.000023 m/m/K||10||||||290 MPa||| +CalculiX-Steel|CalculiX-Steel||Standard steel material for CalculiX sample calculations|||Metal||||||||210000 MPa||0.3|||||7900 kg/m^3||||||||||||||||590 J/kg/K||||43 W/m/K|0.000012 m/m/K||||||||||| +Concrete-Generic|Concrete||A standard C-25 construction concrete|||Aggregate|||||||Masterformat 03 33 13|32000 MPa||0.17||||25 MPa|2400 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Concrete|| +Glass-E-GlassFibre|Glass-E||Glass Fibre|||Glass|||||||||3445 MPa|||||1080 MPa|2580 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| +Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass||||||||72000 MPa||0.22|||||2520 kg/m^3|||||||||||||||||||||0.000009 m/m/K|||||||||https://en.wikipedia.org/wiki/Soda-lime_glass|| +Glass-S2-GlassFibre|Glass-S2||Glass Fibre|||Glass|||||||||4890 MPa|||||1600 MPa|2460 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Glass_fiber|| +None|None||This is a not defined material|||None||||||||0 MPa|0 MPa|0|||||0 kg/m^3|||||||||||||||||||||||||||||||| +PA6-Generic|Polyamide 6|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=8d78f3cfcb6f49d595896ce6ce6a2ef1||2930 MPa|75.5 MPa|0.39||||67.6 MPa|1150 kg/m^3||||||||||||||||1670 J/kg/K||||0.262 W/m/K|0.000082 m/m/K||||||||70.5 MPa|https://en.wikipedia.org/wiki/Nylon_6|| +PET-Generic|PET|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a696bdcdff6f41dd98f8eec3599eaa20||3150 MPa|38.8 MPa|0.36||||38.0 MPa|1380 kg/m^3|||||||||||||0.0385 GPa|||1140 J/kg/K||||0.181 W/m/K|0.000072 m/m/K||||||||62.8 MPa|https://en.wikipedia.org/wiki/Polyethylene_terephthalate|| +PLA-Generic|PLA||Polylactic acid or polylactide (PLA, Poly) is a biodegradable thermoplastic aliphatic polyester derived from renewable resources, such as corn starch, tapioca roots, chips, starch or sugarcane.|||Thermoplast||||||https://www.sd3d.com/wp-content/uploads/2017/06/MaterialTDS-PLA_01.pdf||3640 MPa|26.4 MPa|0.36|||||1240 kg/m^3||||||||||||||||1800 J/kg/K||||0.130 W/m/K|0.000041 m/m/K||||||||35.9 MPa|https://en.wikipedia.org/wiki/Polylactic_acid|| +PP-Generic|Polypropylene|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=a882a1c603374e278d062f106dfda95b||1470 MPa|79.7 MPa|0.44||||10 MPa|916 kg/m^3||||||||||||||||1920 J/kg/K||||0.249 W/m/K|0.000123 m/m/K||||||||32.8 MPa|https://en.wikipedia.org/wiki/Polypropylene|| +PTFE-Generic|PTFE|||||||||||http://www.matweb.com/search/datasheet.aspx?MatGUID=4d14eac958e5401a8fd152e1261b6843||564 MPa|34.6 MPa|0.46||||10.2 MPa|2070 kg/m^3||||||||||||||||1010 J/kg/K||||0.263 W/m/K|0.000108 m/m/K||||||||20.5 MPa|https://en.wikipedia.org/wiki/Polytetrafluoroethylene|| +PVC-Generic|PVC|||||||||||http://www.matweb.com/search/DataSheet.aspx?MatGUID=1f650966ec834bb8833dd4c6e3116079||2800 MPa|50 MPa|0.38|||||1380 kg/m^3||||||||||||||||1000 J/kg/K||||0.150 W/m/K|0.000075 m/m/K|||||||||https://en.wikipedia.org/wiki/Polyvinyl_chloride|| +Steel-15CrNi6|15CrNi6||High-strength carbon steel|höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder|Wysokowytrzymała stal węglowa|Metal|Case-hardened steel|Einsatzstahl|1.5919|EN 10084||||210000 MPa|1000 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||680 MPa||| +Steel-17CrNiMo6|17CrNiMo6|17CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6587|EN 10084||||210000 MPa|1150 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||8||||||830 MPa||| +Steel-1C22|1C22|C22|Case hardened alloy steel|kleiner Vergütungsdurchmesser, gut schweißbar|Stal stopowa do nawęglania|Metal|Heat-treatable steel|Vergütungsstahl|1.0402|EN 10083-1||||210000 MPa|400 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||27||||||230 MPa||| +Steel-1C35|1C35|C35|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0501|EN 10083-1||||210000 MPa|480 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||21||||||300 MPa||| +Steel-1C45|1C45|C45|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0503|EN 10083-1||||210000 MPa|580 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||340 MPa||| +Steel-1C60|1C60|C60|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal|Heat-treatable steel|Vergütungsstahl|1.0601|EN 10083-1||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||380 MPa||| +Steel-20NiCrMo2|20NiCrMo2|21NiCrMo2||höchste Beanspruchung, Wellen, Zahnräder||Metal|Case-hardened steel|Einsatzstahl|1.6523|EN 10084||||210000 MPa|900 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||10||||||630 MPa||| +Steel-28Mn6|28Mn6|28Mn6||||Metal|Heat-treatable steel|Vergütungsstahl|1.117|EN 10083-1||||210000 MPa|800 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||590 MPa||| +Steel-2C10|2C10|Ck10||||Metal|Case-hardened steel|Einsatzstahl|1.1121|EN 10084||||210000 MPa|640 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||390 MPa||| +Steel-30CrNiMo8|30CrNiMo8|30CrNiMo8||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.658|EN 10083-1||||210000 MPa|1250 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1050 MPa||| +Steel-34CrNiMo6|34CrNiMo6|34CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6582|EN 10083-1||||210000 MPa|1200 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1000 MPa||| +Steel-36CrNiMo4|36CrNiMo4|36CrNiMo4||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6511|EN 10083-1||||210000 MPa|1100 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||10||||||900 MPa||| +Steel-36NiCrMo16|36NiCrMo16|36NiCrMo16||höchste Beanspruchung, Wellen, Zahnräder||Metal|Heat-treatable steel|Vergütungsstahl|1.6773|EN 10083-1||||210000 MPa|1250 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||9||||||1050 MPa||| +Steel-3C15|3C15|Cm15||||Metal|Case-hardened steel|Einsatzstahl|1.114|EN 10084||||210000 MPa|740 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||440 MPa||| +Steel-3C22|3C22|Cm22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1149|EN 10083-1||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||24||||||350 MPa||| +Steel-3C35|3C35|Cm35||||Metal|Heat-treatable steel|Vergütungsstahl|1.118|EN 10083-1||||210000 MPa|630 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||430 MPa||| +Steel-3V45|3V45|Cm45||||Metal|Heat-treatable steel|Vergütungsstahl|1.1201|EN 10083-1||||210000 MPa|700 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||500 MPa||| +Steel-C10|C10|C10||||Metal|Case-hardened steel|Einsatzstahl|1.0301|DIN 17210||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||380 MPa||| +Steel-C15|C15|C15||||Metal|Case-hardened steel|Einsatzstahl|1.0401|DIN 17210||||210000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||430 MPa||| +Steel-C22E|C22E|Ck22||||Metal|Heat-treatable steel|Vergütungsstahl|1.1151|EN 10083-1||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||20||||||340 MPa||| +Steel-C25E|C25E|Ck25||||Metal|Heat-treatable steel|Vergütungsstahl|1.1158|EN 10083-1||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||370 MPa||| +Steel-C30E|C30E|Ck30||||Metal|Heat-treatable steel|Vergütungsstahl|1.1178|EN 10083-1||||210000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||400 MPa||| +Steel-C40E|C40E|Ck40||||Metal|Heat-treatable steel|Vergütungsstahl|1.1186|EN 10083-1||||210000 MPa|650 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||460 MPa||| +Steel-C50E|C50E|Ck50||||Metal|Heat-treatable steel|Vergütungsstahl|1.1206|EN 10083-1||||210000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||520 MPa||| +Steel-C55E|C55E|Ck55||||Metal|Heat-treatable steel|Vergütungsstahl|1.1203|EN 10083-1||||210000 MPa|800 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||550 MPa||| +Steel-C60E|C60E|Ck60||||Metal|Heat-treatable steel|Vergütungsstahl|1.1221|EN 10083-1||||210000 MPa|850 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||13||||||580 MPa||| +Steel-E295|E295|St50-2||||Metal|Mild steel|Baustahl|1.005|EN 10025||||210000 MPa|490 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||20||||||295 MPa||| +Steel-E295-GC|E295 GC|St50-2K||||Metal|Mild steel|Baustahl|1.0533|EN 10025||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||420 MPa||| +Steel-E335|E335|St60-2||||Metal|Mild steel|Baustahl|1.006|EN 10025||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||16||||||335 MPa||| +Steel-E335-GC|E335 GC|St60-2K||||Metal|Mild steel|Baustahl|1.0543|EN 10025||||210000 MPa|690 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||490 MPa||| +Steel-E360|E360|St70-2||||Metal|Mild steel|Baustahl|1.007|EN 10025||||210000 MPa|690 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||360 MPa||| +Steel-E360-GC|E360 GC|St70-2K||||Metal|Mild steel|Baustahl|1.0633|EN 10025||||210000 MPa|780 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||560 MPa||| +Steel-EN-GJL-100|EN-GJL-100|GG-10||für gering beanspruchte Teile||Metal|Cast iron|Guss|0.601|EN 1561||||88000 MPa|100 MPa|0.3|||||7200 kg/m^3|||||||||||||34000 MPa||||||||0.00001 m/m/K||0||||||||| +Steel-EN-GJL-150|EN-GJL-150|GG-15||für dünnwandige Teile wie Gehäuse, Ständer||Metal|Cast iron|Guss|0.6015|EN 1561||||95000 MPa|150 MPa|0.3|||||7200 kg/m^3|||||||||||||37000 MPa||||||||0.00001 m/m/K||0||||||98 MPa||| +Steel-EN-GJL-200|EN-GJL-200|GG-20||Hebel, Lager , Lagerböcke||Metal|Cast iron|Guss|0.602|EN 1561||||105000 MPa|200 MPa|0.3|||||7200 kg/m^3|||||||||||||40000 MPa||||||||0.00001 m/m/K||0||||||130 MPa||| +Steel-EN-GJL-250|EN-GJL-250|GG-25||||Metal|Cast iron|Guss|0.6025|EN 1561||||115000 MPa|250 MPa|0.3|||||7200 kg/m^3|||||||||||||44000 MPa||||||||0.00001 m/m/K||0||||||165 MPa||| +Steel-EN-GJL-300|EN-GJL-300|GG-30||hochbeanspruchbar, für Motorständer, Lagerschalen||Metal|Cast iron|Guss|0.603|EN 1561||||125000 MPa|300 MPa|0.3|||||7200 kg/m^3|||||||||||||48000 MPa||||||||0.00001 m/m/K||0||||||195 MPa||| +Steel-EN-GJL-350|EN-GJL-350|GG-35||höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse||Metal|Cast iron|Guss|0.6035|EN 1561||||135000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||52000 MPa||||||||0.00001 m/m/K||15||||||228 MPa||| +Steel-EN-GJMB-350-10|EN-GJMB-350-10|GTS 35-10||gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse||Metal|Cast iron|Guss|0.8135|EN 1562||||175000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||10||||||200 MPa||| +Steel-EN-GJMB-550-4|EN-GJMB-550-4|GTS 55-04||Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel||Metal|Cast iron|Guss|0.8155|EN 1562||||175000 MPa|550 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||2||||||340 MPa||| +Steel-EN-GJMB-650-2|EN-GJMB-650-2|GTS 65-02||Gabelköpfe||Metal|Cast iron|Guss|0.8165|EN 1562||||175000 MPa|650 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||2||||||430 MPa||| +Steel-EN-GJMW-350-4|EN-GJMW-350-4|GTW 35-04||dünnwandige Teile, Fittings, Beschläge, Förderketten||Metal|Cast iron|Guss|0.8035|EN 1562||||175000 MPa|350 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||4||||||||| +Steel-EN-GJMW-360-12|EN-GJMW-360-12|GTW S38-12||für Verbundschweißteile||Metal|Cast iron|Guss|0.8038|EN 1562||||175000 MPa|380 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||5||||||200 MPa||| +Steel-EN-GJMW-400-5|EN-GJMW-400-5|GTW 40-05||gut schweißbar, Auspuffkrümmer, Schraubzwingen||Metal|Cast iron|Guss|0.804|EN 1562||||175000 MPa|400 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||7||||||220 MPa||| +Steel-EN-GJMW-450-7|EN-GJMW-450-7|GTW 45-07||schlagfest, Fahrwerksteile||Metal|Cast iron|Guss|0.8045|EN 1562||||175000 MPa|450 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.00001 m/m/K||10||||||260 MPa||| +Steel-EN-GJS-400-15|EN-GJS-400-15|GGG-40||Pumpen-, Getriebegehäuse||Metal|Cast iron|Guss|0.704|EN 1563||||167000 MPa|400 MPa|0.3|||||7200 kg/m^3|||||||||||||65000 MPa||||||||0.000011 m/m/K||15||||||250 MPa||| +Steel-EN-GJS-500-7|EN-GJS-500-7|GGG-50||Seiltrommeln, Bremsteile, Zylinderköpfe||Metal|Cast iron|Guss|0.705|EN 1563||||170000 MPa|500 MPa|0.3|||||7200 kg/m^3|||||||||||||66000 MPa||||||||0.000011 m/m/K||2||||||320 MPa||| +Steel-EN-GJS-600-3|EN-GJS-600-3|GGG-60||Kurbelwellen, Stangen||Metal|Cast iron|Guss|0.706|EN 1563||||177000 MPa|600 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||370 MPa||| +Steel-EN-GJS-700-2|EN-GJS-700-2|GGG-70||Kurbelwellen, Zahnräder, Turbinenschaufeln||Metal|Cast iron|Guss|0.707|EN 1563||||180000 MPa|700 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||420 MPa||| +Steel-EN-GJS-800-1|EN-GJS-800-1|GGG-80||Zahnräder||Metal|Cast iron|Guss|0.708|EN 1563||||180000 MPa|800 MPa|0.3|||||7200 kg/m^3|||||||||||||67000 MPa||||||||0.000011 m/m/K||2||||||480 MPa||| +Steel-G16Mn5|G16Mn5|GS-16Mn5N||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.1131|DIN 1681||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||260 MPa||| +Steel-G200|G200|GS 38||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.042|DIN 1681||||210000 MPa|380 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||200 MPa||| +Steel-G20Mn5|G20Mn5|GS-20Mn5v||Gehäuse, Zahnräder, Bremsscheiben||Metal|Cast steel|Stahlguss|1.112|DIN 1681||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||360 MPa||| +Steel-G230|G230|GS 45||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal|Cast steel|Stahlguss|1.0446|DIN 1681||||210000 MPa|450 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||230 MPa||| +Steel-G260|G260|GS 52||||Metal|Cast steel|Stahlguss|1.0552|DIN 1681||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||260 MPa||| +Steel-G300|G300|GS 60||||Metal|Cast steel|Stahlguss|1.0558|DIN 1681||||210000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||300 MPa||| +Steel-G30Mn5|G30Mn5|GS-30Mn5||||Metal|Cast steel|Stahlguss|1.1165|DIN 17205||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||14||||||400 MPa||| +Steel-Generic|Steel-Generic||This is a blend Steel material card. The values are at the low end of the spectrum. If you need a more precise material definition use the more specialised steel cards.|||Metal||||||||200000 MPa||0.3|||||7900 kg/m^3||||||||||||||||500 J/kg/K||||50 W/m/K|0.000012 m/m/K|||||||||https://en.wikipedia.org/wiki/Steel|| +Steel-S185|S185|St33||für geringe Beanspruchung||Metal|Mild steel|Baustahl|1.0035|EN 10025||||210000 MPa|310 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||18||||||190 MPa||| +Steel-S235JO|S235JO|St37-3U||||Metal|Mild steel|Baustahl|1.0114|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| +Steel-S235JR|S235JR|St37-2||üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen||Metal|Mild steel|Baustahl|1.0037|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| +Steel-S235JRG1|S235JRG1|USt37-2||üblich für mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0036|EN 10025||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||26||||||235 MPa||| +Steel-S260NC|S260NC|QStE260 N||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0971|SEW 092||||210000 MPa|350 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||30||||||280 MPa||| +Steel-S275JO|S275JO|St44-3U||||Metal|Mild steel|Baustahl|1.0143|EN 10025||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||275 MPa||| +Steel-S275JR|S275JR|St44-2||Wellen, Achsen, gut bearbeitbar, gut schweißbar||Metal|Mild steel|Baustahl|1.0044|EN 10025||||210000 MPa|430 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||275 MPa||| +Steel-S275N|S275N|St E 275||||Metal|Fine grain steel|Feinkornstahl|1.049|EN 10113-2||||210000 MPa|370 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||24||||||275 MPa||| +Steel-S335JO|S335JO|St60-2U||||Metal|Mild steel|Baustahl|1.0553|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| +Steel-S335JR|S335JR|St53-3||||Metal|Mild steel|Baustahl|1.0045|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| +Steel-S335N|S335N|St E 355||||Metal|Fine grain steel|Feinkornstahl|1.0545|EN 10113-2||||210000 MPa|470 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| +Steel-S340MC|S340MC|QStE340 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal|Cold forming steel|Kaltumformstahl|1.0974|SEW 092||||210000 MPa|480 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||340 MPa||| +Steel-S355J2G3|S355J2G3|St52-3||||Metal|Mild steel|Baustahl|1.057|EN 10025||||210000 MPa|510 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||22||||||355 MPa||| +Steel-S380MC|S380MC|QStE380 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0978|SEW 092||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||23||||||380 MPa||| +Steel-S420MC|S420MC|QStE420 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.098|EN 10149||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||21||||||420 MPa||| +Steel-S420N|S420N|St E 420||||Metal|Fine grain steel|Feinkornstahl|1.8902|EN 10113-2||||210000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||420 MPa||| +Steel-S460MC|S460MC|QStE460 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0982|SEW 092||||210000 MPa|590 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||19||||||460 MPa||| +Steel-S460N|S460N|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8901|EN 10113-2||||210000 MPa|550 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||460 MPa||| +Steel-S500MC|S500MC|QStE500 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0984|EN 10149||||210000 MPa|620 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||17||||||500 MPa||| +Steel-S550MC|S550MC|QStE550 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0986|SEW 092||||210000 MPa|680 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||550 MPa||| +Steel-S690MC|S690MC|QStE690 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal|Cold forming steel|Kaltumformstahl|1.0966|SEW 092||||210000 MPa|790 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||15||||||690 MPa||| +Steel-St-37-2K|St 37-2K|St 37-2K||mäßige Beanspruchung||Metal|Mild steel|Baustahl|1.0161|EN 10025||||210000 MPa|460 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||320 MPa||| +Steel-St-E-255|St E 255|St E 255||||Metal|Fine grain steel|Feinkornstahl|1.0461|DIN 17102||||210000 MPa|360 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||260 MPa||| +Steel-St-E-315|St E 315|St E 315||||Metal|Fine grain steel|Feinkornstahl|1.0505|DIN 17102||||210000 MPa|440 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||320 MPa||| +Steel-St-E-380|St E 380|St E 380||||Metal|Fine grain steel|Feinkornstahl|1.89|DIN 17102||||210000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||380 MPa||| +Steel-St-E-460|St E 460|St E 460||||Metal|Fine grain steel|Feinkornstahl|1.8905|DIN 17102||||210000 MPa|560 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||460 MPa||| +Steel-St-E-500|St E 500|St E 500||||Metal|Fine grain steel|Feinkornstahl|1.8907|DIN 17102||||210000 MPa|610 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||0||||||500 MPa||| +Steel-X2CrNiMoN17-13-3|X2CrNiMoN17-13-3|X2CrNiMoN 17 13 3||schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher||Metal|Stainless steel|Niro|1.4429|EN 10088||||200000 MPa|580 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||35||||||295 MPa||| +Steel-X2CrNiN24-4|X2CrNiN24-4|-||||Metal|Stainless steel|Niro|1.4362|EN 10088||||200000 MPa|600 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||25||||||400 MPa||| +Steel-X39CrMo17-1|X39CrMo17-1|-||||Metal|Stainless steel|Niro|1.4122|EN 10088||||213000 MPa|750 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||12||||||500 MPa||| +Steel-X3CrNiMo13-14|X3CrNiMo13-14|-||||Metal|Stainless steel|Niro|1.4313|EN 10088||||216000 MPa|900 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||11||||||800 MPa||| +Steel-X5CrNi18-10|X5CrNi18-10|X5CrNi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4301|EN 10088||||200000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||40||||||210 MPa||| +Steel-X5CrNiMo17-12-2|X5CrNiMo17-12-2|X5CrNiMo 17 12 2||schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik||Metal|Stainless steel|Niro|1.4401|EN 10088||||180000 MPa|520 MPa|0.3|||||7800 kg/m^3|||||||||||||68000 MPa||||||||0.000011 m/m/K||40||||||220 MPa||| +Steel-X6CrNiTi18-10|X6CrNiTi18-10|X10CrNiTi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau||Metal|Stainless steel|Niro|1.4541|EN 10088||||200000 MPa|500 MPa|0.3|||||7800 kg/m^3|||||||||||||81000 MPa||||||||0.000011 m/m/K||40||||||200 MPa||| +Wood-Generic|Wood||A standard construction wood|||Aggregate||||||||12000 MPa||0.05|||||700 kg/m^3||||||||||||||||||||||||||||||https://en.wikipedia.org/wiki/Wood|| diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.ods b/src/Mod/Material/StandardMaterial/Tools/Materials.ods index 94e5a2ebb392eb128727eedd7c94bf7f162cb75c..97d36a4416568429501a32b05bdc846b2f07c4c8 100644 GIT binary patch delta 19639 zcmYhhbyObB?+1!gpcE)pyv5y$ySux)J!o-fad&s`gS)#GcXx;4?tc4zf9IZiPyYBM znQV6UOir>h6L1&gU?=2f1!-s)3< zsE9&9K*Y7^0-ueLULhcUG)RgFs<^G3>4v!AwR{<`Btynq@_hQ(^y(fu8rF(8rWsCf zv>wF03U?j)K@X9Pa`Lfr()V7saM?7wr&P*`^TzZ}H#(;uNIQ>voMJo{@YREds-)^S z=R$ZkUCBPGSK64MCKYKhaZ+1HxYT~$=jwr5GdJe%E5IGgHqLG?n(243ZL6d11G)+X ziMq_KL=$E(jAMOGNq^8xk^0nW`=}+yhG13%pM_y%5hrTFH^L?2M3PTYECqbN*G&y( zeylYC5{8C0Y^(zBHc{$R_@cu$Trs?bD&q^8i?f-UB{o`r43;KQjkjih6L-BYV>})) z{W|@Q2m+#uhFA|;j>t+OJ`mF#{Svj1YOG5JsF!Vf6pkYWDMJ-wq*Cn@rN&RhS3b}K zu5+J0L>%8?S;}-rAq(e`MLg*I-_7bnnrcHRB={~Y_zP|i{PW{ z1P?Hr($rk--in`(1+i6h^T%f~oLB7a(uLJJQh|5}cM#saJe%UK**s2j&kt3f($bov zs`8^mUAnwP4aFswhXocH0&*hdBvvGbk!!y7;ZIi1dXab$Y?#OMaPCjCyt3A^Lsn{W z7qaN4K`1=xYOsy?h!3O=Mw%>h-VvJW3KfFF?{8ctrx?@Wk)KW5`N#b*Q#m=+7eD#9 z$^+>r#;Tjg8VIm6GG&q5qep z*JG)O!a<`xHaIG^Bx7%s^z5`z2s4%*;^>G-X#dC+J6N&_5KSkaC`MADeGN#zX45g~V=o+mP_4VIdcjp9Q{G!X-wJvE$oD8UoE5^Gv zy?PC`6OOz_6Q+!lQ!=Gfoc-1u4E|*yMjriiKi9(7z?N2&$3~|czra45SZx1jrrNNUF@op5!^Z^k6j$M^fTCPfRQ^`5~ngRj7!wON-C_0`&&5T_CeH+3W3u#=|oJy$BR>m5ZVXIV*4rr%j(BU z!L)1}9z}acYEk}DM=CYpu%D+Baa5C*wb9LXFB9pz6+->4g-m({jzYgZ;~2YB#bAe| z@@<`IX&PHi>?$A!>F+DSoYwDxx~!TS$&cE>#dOgGsMu6x9kUYwN|Xu6aA-hS{h?~b zQ-f35t88Ru#%qJtfvWS%fUTJBhX1}4*9TPO>dF15_*YYwVSTevgD!T@O@@K`IWuvYTkX<8`>*x^;O<`7Z`KSSk$JLx+gK-9kPs&edIN6Y z5)<(@_g^$`-2TW}QDzR(hn2vP*wyk#Sumc3rRKD4_E_o1t%cC0*y7JGbXa?w=>*!W z*P@YP#tpjrn*;$r#6UQ-&n}LEYi_K^#Q$=Lu$c}mhOq;FTOf;#-ZX zh0|t86)3O&Xz(&Rf)R?*$yXk=EzUVH3XkIbbFoWH37fz!=`&k5g0cnly{O5IV@g?! zYiVHO&*j=F*wZ3E&xuC@e2S?fd}wP`3pq0hmNHVpmoOxC?e3OzdJGxTLSTYODlMF? zzFugBgvX0CRA5i*|G5N~(r;pa0Dr3O;i8n_a@6&gXm|Wuy}xm^j$u$~*Is|ti?q~b z;KfOpAuT(F`y!=&U`P?Ab@j9IG?3fz=Kxu$MlB{h*~iy`*DnQZ<=SJROwjLlPy;Bc zu`q54kh=b@Gy}qf|5lHx?@844+a`Z7)h>zB!)63w3$Bm^O;HMvBX{R4a+6Vodl0_= z^IT+&Q5)Y*Fu{S+D_K=5ilk8!$;V5xU|)sCyA`1_k2{_9eStzMU{ASpq9b;>p}b&y ztZX7vOK^DB>NN35d@dShdQeIbHgw^|GMZ)0G^kg^>;sOaXvntaM@lVoCZg5%_Btah zN6Mn_aU)>Zl_EqSBU#1%StunmVdQBNLj1?FAUgJ!r*EQYiYDaT+Xa|^^5g;#Kkp;# zJUF}5PLXTfr5{!B|Hf(NRXPMDPp&AY@i9Zmam)7=STfZh6F)t2EB2Q~s+8C?e&9b5 zJHm&WG)838ac4UlE8e0JJkJING0cnl#(h7H$s8~gulOfq?fa0EpJ)XL4q7g z;grrc6wa*kSu|L@n!DQ`CS3`Dk@P!&-R!3yb4aRu*si!u=wfMqGhY zSnHqLjP4!*uN6eT$26qhw#h+KOS*U%w*r0y&m8dkh6;o%L@YTVFuT8e7s3EM?h|NF zB|dAG%#;L0qQqXv#$gG%^NQs}a@Yi;Dx;OfA%h(;o^p87rHDWhB$1@4b5b9}{KT<9 zo@5`-E@=OLL3RF3iRm%2C+RrQer?=^E80heS&Is&w!L&r?=`Dc2|&qn&+&8#SoBj- z=TR$hr?C)4$juF*IQgw4lkdERp-dwxF;LWR+~{~~wrEl?W!g!4}gUU`Z8(di++asK2;2I(RlUhMc9{zoSgm@hJB-B zx#8q`a_23^ubjJioi$q1$O#VqHD3rs8@(=rUiSRpxY7LhY&ewpcl8oyy~$*e#;u%? z;m7}EG*nQUrFtn9x>frnt&6eZSn0m9PHV|mnu>e&sTrwNh zH5Ij-ouB$r22@OtU0>Fig*3+;g3I$mQkh4oDiNiAT1suoiY($z$Ju`RjP?M?6{u!P zd?9eDhb+DP_o)07-8bO4*;&Yf7b3^rc8~2mq=%8w^MIZTT&RMUmiCF`1Bk zjx;pFCg)ckkEWQPJc`e|F}3Z1p{gD$PvG^$#rN$ z`)P_)&Iv5yc~Xg~02%FF#rp#6G;_Wwal5wBCa|L(%`QtP-R}O#?kJ8bBC`yR(-Myx zVLyjRTB5Nqspdw`-=otmwJ`9ECZfzAWRYMWm=e=18p$3AfxHrK3#s!@u972`De$Yu zUmJp9T9a-dMuzQSFoDe+Fk(dGOsE!pdfhRu$*GlW-VTk%Y(>R@X%_4Xs`bJ|N+DG- z1F=;TZgm?)B(u|+RXWnysx2hI^|Mn1xn+mH-kQ=T^-|)PU;52L#_W7jv zB}>e0+{V-Qw1E0>vet!x=@r_)Aotkaz~jICdp#^>HH29(F{X-~DWy+s<_UwSQfoftj zd7vf8x^+^5oBKDLnZEaZ%ORfl#=_+8iH}XgPGwZALJ zoO0_!i-sfZ9lq(E1UX`D(AHAK?@mV)a$;;a0br^eF*2GCxoC@U3q`DwiG=2SR&@W` zVbfX}^IZ_Zu&($DArhAnNtBMU_F4Ofd_l_@8J&uwDcHYLJ?p0)raL}bzbB6UUN*Cj zRGU?i_fWvU$cp((8D^Rr{{bP8jR7%SIrNun&puTs46EHowqQnFwsssp@W8ss`t^;qjG5P_`Am9nbh2c zO(|^lq;8be*e>K9ox{cx1R-0eq)Su)lRvA`3u|1rg*jE8<6rfNppM<*nZrLz!>va@ zQ@m)`a*~b&gcmC=m6&EqRh4sUQE+Z%kt=CyUwVlZC-f37eXeg6nkj@h?sDSQnuE8H zaz6^-Z362Mr}Zq#Ly-y83Bwa_=bc#|yZ7jb3OQOQ+jRi+x1I`_?!*p~iEi~qUHZC&16EL4Kt(>?>=F;b$Wqof1) zviN9&+8p--6(Ap?bfMcXXetR>bOnIsIEI}vIlggExLHFd`#5=<5e=j^^L4jR(uRuc z=V3KJWV&lC_s*Z=rWN^Vqz+U7gY=Usl;{_`IP!7QVWn5DwG2>Y6nU*kp{AxnS1H%0 zKV%$9)kPYA_p?Cp$>(KR2?TZTwJVwSC(&F!KhFDdc`Wp5h)Qc8Gn zOp|@&ZZL0%%{lj)wxElXHgV@iTCCM9)^&Di&*F;bG_9%rtI^-#Yaw{&C?(nAvF094 zWV14br}@FWTy8y6GZHH~X<1Kep5sp0za;N@8qf}lQ4$xTv(K$8>Vqv6#2CNj*T^H0 z>Q@d9Ed;6N@RHvoc1O5?QD`*XWLu={Pi>)EBAJIn(YyjTdMtzgDm4=I3;|ng$0e9U z%Ym+zAv0QdSbfrQSza7{*&`7?WLt*^ZsjKMg|a}gd`WIt@MI&595k*-SJH6F(E)GOY z<+?FEsQUM8cFj6))uL<9UQpDM{_=n|l!NG=sw8ND2%yWZQd^ax$<*YPIr)+9Uy@44nmK5?j=D<$30q7()uCs|rPSwcE=KTtZ` z426@I(gRV=?!Vps9o+m^c-d!8fu6h?Evkf5NOSe`MVmG6Khm!h%fQt6SMQ7OD9eXYgR5)+@34L2V+&B}mWLte& z^-?mvbwED+)A9GP2+DhljjrRao?+!omy8W;z?57AU zk@w}s^{{?P*_+X9S`IXdRHdrYqYx{?xgw05eyc8zzTPx0{FHcwCF<&$-gctsIC0bN zV1jHNG>;fnRX;|s=^L%tveLiQ(UN>anD2#;`;z;V>&_}G-}dv|yo+Jwb->Fr^R+?| zX!-Q(zRQPMs_W$Q2X6@R&v#T)e!aTha4vJM`k{2fOro>KfD6+s)V7+0=u`2ZP!=onAfGvJ2Ma4vBLalla#o(##w;>NtN27ydBXP{{LgfuKh;7r?b(#UJ=ThVr1b9h<3;|ZeA z>ELi%2KY91O`}f~2G>Y*SF4PsWt)}{+CRF?j{d>FtIo%{{FJvS_qroV6m&d>pqdG+wyRT*o==flE+PeunF0~d0$gN@|k zA1S4?-B)}hKdD8+6E9I`Y$P#`EJ8kEt#w*Iy=S?kz~i3mh!!@i2f#Jmr+k`7O${2J!Ap!}+W8k3Rpf+Q>DwB&LoT?%r+gD2@^G7vrQ=h; z1P`6+wIK;NJBX92E+?SGX4*^Q0ygx-Qo=mIcWII%PvHm z(b_dI7Rxd?UT!>j&9?(7M`wY5ksowDx!4+WSP(}hF6!)0esPGHc(JYLnxk|7ozjXi zIJR7fUOUpUQa-u9FFg}*ivZapNJ=K}ST-gVD(Dos7E0n)7%mL5w z-nd-n=!Z6mc-)vO#akwc6ayj~);=Opla$f>Mzb*C{AJa&w+}_D=p2WS;RDv9Zs#?KK{Y^B-4U50a(fG>Mn*f z6VWvjvTXt^SNaOpUuxz*V++h?H%&iy$Dao~@2l2P?Z=L^{VvbM&g7G3$ziIF4psat zt)@0gVpRR>2tU#LQ+^it5)Xxf#w$djKUhORSJ{|EhCBdZ7ZrjH4iBDmA6^caOP`t; z-2K#U75=3)fgE)73T2F4AHk^d5h^HNV_?O#UE57lJ@3pU%aDY>RjV>gEy-?M9DvI- zC8Mz|Yjdd16J$`?= zolb9QRD3u??K+8N`h(^SHCzeD=EF9Wxkxq26T)KDc%zZs^DcWrB+cSEKWcLNh^C7# z2}OE-aoSpm%Uam>%*A2mT9FI4*lprWq>g-TDP|g|wK-rzdmBg+J#Be)I~ytV-uI7= z{IXxcq8;oi?s+o%zl3YlEi;_fg zR?cxscoy$)4+;cxmvGxBezfKG6cZFX5Vi?g?9YOqnaM)Aw9*=VqJXXR_kq!~(i zZ3AQ~v;fzE!orR1deR+dQ^tNzC&lY=y_(==eq_!lx2N$FgGDJ@+?q;@INNo$aGLd4 zg%fCONe0veTESVX_aN=(mWugdH(jXqpq}*MZ^q75xmUzm0Ft*~$;15Y)k2Hn{>>3s zt-}F1>%y>SH2&OJ`lblb66vpkh+J+2Z%~SG-j&h?srmS|$#B)q(7J;59I0%cqRfLA z$EzmDV#?m?z98D#e=G6gNC7Ie>8QE%PPR|giozZu ziZWEj^n4^cH9RU1alac*=5@PFt|z-^b%-;vv8J7(XEl!QK34y} zk97iE~=K1$_`i)Gbpy;4}7 z4i+^oS=fe(yd?*HHD(QKOS6p%;wlywHqUgvTjigM$-jDf#f!2O9{=0!136|-(jY8^ z%l_owq$op8a!SXhNoUt$*cQ2)T!P^%g~w{^EX!FVDd4?|{jS{MmytVE>f*22j+9|l z(b1lvs5GqwO-~v9XPk-KqH?PA&HH9&`=)Y~YI^JiSI}9gJ5(V%JlwFqtkqU-sLuwi zui9%GY}W>M3V1lg=#c49fet2#>+oy+)_E()dnGl?WlNm$Rhb*mw1taZ%Fua2&rnffhZ7`U6FdCSl)Es@nBT97(Qx>^MXHuN|?HuxfeEY-DC$dlF z<62nW9H)HEHS#Zr5Q@x@gwA-is)&){cZpEaU7~uVW1!4JK}0R9Vk*Cr*6$rvHgbw6 zu~=wTJ$O$)az6`v;MrxnI3>otI@WFYh^q4SqWeXHh*^JNivGI!i+Lm+xmv9|ZsNXR zq=2WkzQn9RwiOzaRZ3l%Jr#hf^{jB(beXK;K>*)d7c z*Po%`a^*XsENly~$CjJAeS>75gxzYb^*px0J2rzB$2)SX08iBm7lt=PXrk~@V5EeAJ;3>aYWb?p%TmZIQ@Xdl zyu<_nhuU~E0P(m7Epu5=g?*0?Yao+%s!_i&X(YYP&=*W9y0vY|@dyxG6f?!6p;Ofg zz1Ghv2r*wJYFNqVYl9-~k`x~3-zv1-uu!uGi@Czt7K$EMWtK3sKWQWS6sE%X_WHRj zxump89x=s61C)66igM|7m)`$ZsQJbpQ)VKS!ax>XpW|hy=3{d$I!lrcd_&sPeNfvu z{^hO(uNBys4lXqRZ}a(_fKVi0_s0!Pg^O5H6q_W4MT(QCh{a%`@LEDYTnB-HxR|pV zuf}GgkgD@O*KDY%bB0@#^qD9$54FHH-PJzB^UW{;kJuQJCIKL3m74r!T(pc4sx7|q z6r|$w&f0}Ny$H{-P$qaEKDMZ~_XFj>O9o)I>I3oupATn3U%c;MYXpR(sGLZpkb(dI zznLNdm6SN)I|&9Nf7#dnV^K-j{?ka1a{Plje^PtM z|L~5i1@1qrrse&gd_i{y^`HEg(dj=qL5G( z>Fe$7We1+BWu`pivF(%jJdKdYC_)PjvHFi*mlJX(^>BI;y1ZWaJBQ8cI7sCSXmuC> zNiAH%+2>hv`33i9mOfD(9@(pS4EfPZP$Tityso@mijUTCX%)u4Xs@@Y z>f`-7*^|Qc#@NV43%2|dnR<}jCc(a2pXW~+X`91{L?$a zUyBYVvuQ^h?wmN*tl0vhehytfP2t7>gMG)dRzZCy4rR{SD!=o8Nqp@M#1ytNK&~30 zmke{iGd8s=ORP*$j(6n8)!E_im{*lU)C%;`U0{5oZuOqby1(<8Sa02!yl@}ehB{a~ zE2s8qD&ar_l+m-V+ack3YS5|v=AX4og_MqJmBs_bqM2-%3W=>Cp2Onj-)CAS!ltmP? z0shCCCR6>BM#_}oH(~gf+tNdTCnkRq>-RB-FjwT1oOOH5@Lym9N4sl{aGg?(^ zf?eZpY*Nd4{H^om=l7@A6~6IWXWaQdfj7pX5X@oYdo;Py)$EOuZ5JfDT7uHGm3nQ~ zHJn4^c%8fVld9Wg%i1vwta_#?v7CzRjn8J3Xz_c-(c9_p zNh)sS@l`&897w(Z`bu@$G*gGi^SbMjn&y2!!Qrl-;!tkByq$@H${W?GnUc+3agC}b zd^Gk;@r6C1dWGGi>AW0J$6OYe*GJ?dk|2DGo>qmPxmmXB&3;MgshDW89Now;?3ua4 z*%2c=o6%bV;%u)Xu&&y5PE(x43K3JCbcQZ@@3_h89c#sEobSSAFa9mJFnT*YpVh>G zOS7^esW(t4P%~w=UN@IiB_u z=h;THtgrd4%CM?uTTXOafiozi*+&Ub#)3zlY7^@Qcm3vNn&Rr=&7y8wN$N3cYGr=};>E5}!I=guy>3-FR<(1o34Zk%%nX^>m z5{J=E3UNTUZBtrH*P%A@R;PEWfyjIB;dX-qs_DjsG~Nw(EQ>Q)khasHX)OL@1U<`U ze`VI~kAFY)+jOFgV-L8*RSu)GL)>Nwk`>>;Fyg7k13Fd3)BSQC8On|l63o93jCV*g zBL{B&N_E`B3C(4i;JgN-${8Cu?8*LUA5hpC$`E>lZaT6`0)5A&p%@ov-W{-+NHYI7 zmTl<{*K5u5+vPV-=#_;5TfJT-4@JW4w;5d!oc}~eyVwFvmt7CdBwG%pSk>A>>3gWI zPOMueKnXI(cN;^yHuYYFWvW%hVX!w^>uecY4AejS3h14cMM&!;lCrD0$wfX#r8clzrner95*jAtliaD)kE ziuaGBSMZm=uVa-tAlYdl-rO}4B1=HY5q;MF2^eiIT>NuxD-$Gh8* zHRlzmV<(uoBgEoabcG^@+=)0}E@(*SXxO>oh0>KO6%qMb5hpTf5&eHa&cq-kf(r+@SsS$VIjsMHcLZy?!216Kw3z}C9%XS6cIQCfl2F^@ z&_i%^tS$APD8kW;&_-wM0E3Z$ePC>TXw^mdx8FKH-01htkp2y^U_x~eQ#%KZ6$Dze z)^QHkjhkDV$N|0bfwRw*?4T_Z*~n`nQE4nw!lE0BL(8U7bG`!18hN$N&Tw=Gsgn=0 z=8ntpOJ%e(BvsxkOEC4vQn9195G+&B+eJ#nyj-X zA`)n|C{Bb*_j1r1KdZ(6jK`Y8l9PHKIM^2|{bE=`(1q(lhLhM4Hz*3-0ls7MSYrf?(rkVGbOL zn^=i{UjVy2(kFCV;^p)!1$_~HFxU?8GX*H5I&~AT-ctNp>Tg<=a8)}j^n3T^>h^Lz z#G*RpjcS;K&u^z5+CP$= zPdo+uhYDicDQg2AN!)p+N6szz*rfV9dyLW~W{jJo!Sxld1t>Ht3!2=ML&@Lw*jh`g zDi|}YN4+7`>-fX>Ig+_^KQaeQuY&hJS_eQ>FZ~}v4$m1-ZEw;tY}X-JTFRyfDOavh0mF|)3&UGPL6L)LcUW0a=1W`xrlK6?U|DXgEBcEG(P1=A$0G zjHO{h6F!bCxC3d*i#D<$6)3Jh8Y}~E*ocqiG=fea%wQizVI9&9fnA0IaQ5t90h60u zUSePp9z?T^C1hgu>fRb|mumj>v^bnd??v_XDVsr->0vzDh5+uK?-rtmw8Oui_9iGM zvs0n5UM@L#k9QU=tNkk)xzt6<>SQ)W4sN!u0qzQFD}*DG#-p^ukRS68gK7=VB9vBN zXc+|TLPo(Od|H)~A9&mr%R0Bvz$A!thqL9pJDyLXdb%;Uk4_Rk-%j&eZtUh#gh znt4dmCT_UxXn{PzH8GrWkS&mlaCGqpt+77umnh@E)=JP84RD9eHEq%YyIu)o*!pym zEzJ_BFMeqbxBcExogR)3*RK%UTB|4eQ<){+zK1G&#GxG}P#uy(A*s6jK(QhN{V=3Q z$Ct7kr)ycNlfK2o@ewO{ksv4aQz4phGqRE?S|R)J(hmPnvN_RIMU&opS=-X}1j^B) z!Fia3#u^XFToDdKbUB@Y3#wJqhVb!6+3tcYFP@JBe&)bQP5o8WTUAB<+z!+t`$s0S z51}sFFZ}U2+0WeMay(EyV=*vj-K*iF8Mr^ z#250!jS~u6~U(=Nd zvamf74C+>4Wfa7_8_~932BFhHNKLFen196-Z5vWIsQB5mhzqY~bGt11Rc^{+iH!T{ zVUD#ufinvrY~nrw8T0&ZB?z5D2A}&EomckB-GUD7{7TxEnxM|T<{PoW=Zwz4-YB6f za7@2eN?_z7Ci===fXJf4+txXP6BJH;dgWn^9ue3+gMsPRA|;`^dG8bzyn5tbUHk7c z*hHnKBJ1?XSS+!F*|nhNyCa1O%@=sU$Vdc1IY$0*&GnJ6-B7DuyP zdN%2(qNABB+;^{#y1tiV1hA+ph1Iz8gi zlzYu;UsF8wxo2Q8|#8@0hdi~Rwdu#f89y+DouD| zi>1|qjph+d@Ze^$FOIa`FT{bOoz|V?>Hzdg8v$HBUwU;|Me+m1I2S1dz~H-y3`4sb z2I-^UFD9%mLkjlC!M}Sw0Q_=8kqdW-ix_`B?3oy6=(Y( zuJ?l^ca~|$<7Q2Lhs>ab`I0&MlVvmdp5K8LLYlA_6TE7mw9YFhyeevxe;WEkFHpko zI2gx%?_Wdo^`5_RxLlJG9NSGM&ZiOCF35et^8o7?>0Tf(u&)30MjTpS@GEtdcnw7| z|FQgK7-zM&w&ttkcj9-E$bboJP^^XBSNjpA?oO*k73V0J=!v=5?rF_Ugsp7a#3iDa zS;|PWpHdKN7*PS50uqOAyG%Vxwm@(dJjB?^K`9-l=QhF@O&2%(0W|5?&em28v|CKoD~K8)eY+Uk@Vd}3M*yD*nNN}- zCc&+t`;=V`*3hqkG9TrRH*AV_GC4HMqq@X)Oj3~mQ6E3oh=5)L>X~s=8S7o9=FqqE zNi{R*+rFmS4D&XzUQPadk*dSdjIe&LazZoqR~$1bsgu;SWU745v!BgVgbK!y zc-^O%juOig>lPB&6LI4j^VDYgB4-!R*on^HdwQ}W(R5wnJdBMme*ox4Znb{s1vwm{ zxk~}|bta>7)kTY~)A=}D!d(BCXvl}axaPS1ulUg&zHXJEZ38ULY+2gXCa}*I8=kqS z32?cZM$dk{Yb))C_MixHf#0!RG7?T{U@-cSpIX4j2`5vg{(XyP)W|4JP+y??Tn_^Q z+AltlGn?#$cCs?r0=UOT@ZnSuhUvn;C-`)Jg{1Lw^XFivd~dgX(d_qMnUoH~IUJ|2 zLyC3HVrXyl3e|?9zsO}pDKf&ZmLm`^P)*Wb_Uj(zo=$@@*Gmi{XzJoGc5jK@vFYP! zV+uOhVpRuZ`mVp+%xawHeQO)SnEKWkaex${M|#w*GsS%kN(L6vxcB2%_b;~nv#>t= zx9THinC`yF>?=RqH$T~ z84=9?>g1n~S9mjfOoWx!&5v}7WwFY;^&fOcBxHm;{yI4s`MC}F{UE>5nA+3=ctEYN$#;^NCt zzefwa{41Xdx%ibJe`ivV%1K81{CIl3j)|W!Myt5_RYNK&cn!^>pHln@8}FAY@A$7hBzCBeGpdHg`A@}qPw9E+2DYKR3U z+-$iLv|gZfO9sY&KHk8l)4gf^9D&_PE_^P;FeCfRn?-OEtwLk_EG?_0!&?li+>Qgb zKju{a3F{#z_|;)zsYc6B&bZc8(sz*8Pkgf8Z95JN*6s8gPot9&YBx!@@#I#V-BRr; z0e4_`0m+uCD+ZzN@+GBauC+Tv3`C67c3ceVaXtVMv+ggBvW2##DD77NsMMoz2DcIF zH>i7kc!y5-77RbigG)$;lt}kKlOH_Kui4^6JTbZf;zUpkkc4-E;uD5tDB0q=E#05q`yIEVqHuaX??}lS%=DPR3dp`Whj^FmT9l;8~36Ospa#QZE$@ewU6=v43f+2+_Jz~WvMG`N^4GG;_shBLD~yYK5v{KlrP?eF$|FL#RJkP^ zvlw=@-Guld=g0A`b5Ekzelh1`0Sa4qWgnbaru;g z?P`*uM33N4;>=I&ui5#NL+8S~fzXJMfER?9iGR!_yJbV0 z`sXi{UigpoC#E21ukMQin#bnXtzD=`r_Wwu5PT4P9{!W>ZeI18g533IBrR|{t=*2H z7Ym-S2R5MPzM0cEZ0#Qv7?CV0)v%s6_U{nYp?v44(>;3KHIm7&}%|4b^AY?VY` zC8E4jZBg;MhdVA=KCtLBop`T^xV6>(&luZH$}Ss`gM_gxzgwALm+Dd;QvPUI`30Th z{JHfqkpj=I5Q*o(x2XOv)#~0~DlH7RQf(gCtHW;Pbl@7}KvVf&P&46tvbJ%Pa^XmD z@;e~>BmZxn?IBw={~WIGlt3)J_!jvVc}ys`?&0y@nzlv!=dg$WH@p1uD-N^G(&i#- zHq-~kCB~)7q`Op#h@$wthAq^uBPfdB=D4v;+m2s%MMOtRu-)j`))SAe%rcnCn%=^* zpR0j&6*TS^V*?5U3W8-&j01@RbQKCW&S1#Q6@p~4Cb~*pC&Z_DtH5jg4KiLejPIq= zsQZv2kRl)iMX%5E(18xl2r*m^q&a_Sbhip`d)^8$x$VVMGNk-R{W5+3NB7QUgshj( z)d@}y=$@@J>+*cfIk!TTll!jxEn7aoF^0$!gd&8ZmeAaLbB@bV@0&<5xMm^dFU2qv z#r~%?d99iR&K(#2sQ>fko2inJ(BHECdtH~pXidJ=B;1ISWb;iVr_$+R_Mf%KkHkr$ zw>{xo<)-hJ^`jF6zLdVj8^UuN%{e?asK;|0@7oQ6+Knc7`68!ROqf(aK0Aw|k;{{K z^xr^T5oP~bqok@nQOPNsF!X#a?x#<#p%GvE-IGUb5Kr<^P4m1H?3gu^5+`i4Hv`5H z1atk@XeC7YrEOhuhQ{q*#B6bWSDQz9=2!$>rFlp-X?OF?Zrl`kFm&JJz<8NrS6)a$ z7U<|sGFT~H6-W-g6GdRsRUg^P9O`E&@uiG z1bdq(=n5X~M%>9{>zc$pT=KuDQ}vxB%JKNQi*9lb^>3UVue?0)RSS9w8RN({$bD~4 zhHRrMP&RDM4fkJH*4C4oAXhx#ZITNXJqjxZKFGCc3mOUkOhfPj4MOs-d{y8mAv~Yj zxl448j{Afh15E{NpKIsgA%%d*f`JnraxS)s(j!LQt6orOD_xL1DJ?j*@ zrj2T1ovlEY0$hmJXeffJ^?S@rjwO`Lx}>d4==18gKP~GLkj5V0TgUN^ocXSY1d>gwemv$thsxpoBr%Vc1#c%on8` zKhb1pUD}2BOP^+K@M0(-ORJfE@1Xbx|F69>vL|=8*iGzJa`SeZSq*K>Q}b0W*y^ly z1B?ZyMI)NmBC*@6Wf)F9_(ssgA{n(BN5!RG@2kr`zPuz5Pnc^gG#XFE^kvF%BwWDt zMcCD^U)Hs}7^?L|ket^F#tGhOF};!RRMyS+{1M+%magS%EBYmvTh^6OlvW*KZ8&9Y zY2xN{U78AH#VJLmm}qn8zW|!1V^}<7h{&WpvPtP0Pb0a&46AHp zp7Ou4Y%l<{2~+@Nh)y=&$z6Cp6yGZ8?gPk6$jhToUS4=LD+C;W3QL_?`*=64GLgE- z))E-fwzK8!tN!=0)Tgrv20(wjTf7N-=afh_tR$(^iz

aZ= z=5eAXCCceAEvq`_bpj^fU48ZXO(l^q;ST{=s$S7vFUQ;C{R?-IYe%Kz>KY@4%V_>? zdIfX?csF?IYF}4h*QOQl=sYtX?hQPlzAO46v&)ripVIb`5^=iy>>q^maLgpx2kdzH z#rdxX!GBV^l7CfqZ{#X=$B04ZDyB?*k_&=jnL&$sBzN>)a?e$_UeWGjl@-2!)k*?P z#C}zRQb!(g)Lyd4oh+a7biEq4klvXE;#UoL_EL%reJC-jvo>q0n^@b1hv-^+zr_29|BWP_oJGu`Q40h3&&F-tgBFX`1{>t5A5w1}(Nrb*`1rs^s>U-J zcMhUTyW~&sCT~kbK6v&on_^P0c4sTvOt*~%9k3sGQ>zDuHcc(QLLLE$wr#ts^vczQ zyLdLM)I7haVSc(ehHiK{oZKWkbDSA;!K&#lh;c3%9tx zDP8NF#1UDMt=Vxf2DS_a(F_1jGc^L^gJvpH;^USWgyVnY9n7izlSrpqXhx+w)2rw6 zU#NXX*8saxR!B9gfO$9N@TvH2O9Gj6zHZ0 z5&ljYiwP*HpZZexNO8=*$Y`pynB3@e-khD$4}K4imv|3ndeZ={`m%>U=kv7A^9SFY zObguz{zHd>4Q1@b(Otq$<1IZnlNQQ(RyKelE!4N(c(5u_i?ObFs>3@Qc|gZ|Aw=lw zld+QvZIevQvnKwv$OqZdb0udY*YuVNDd#JF`T>z*i;xlA%_FRXEc=i1%=aToxHF@Q zh2*U2)p#9-d`E#`Mov+~zKyq`k?*1RO7o1Yv3W3a+P;kfW&Nez2vCA1=}N-3k{U=3 z)+THM%-a&OrA>z>m^s*T4xC}6XJK+gQ6v!oB}@Cb_sHTN-(M{=1>%P1=QIgS@lQnU zFBa$wlpUo#_rqq+Q@y}$7OUbk@{uV`*`4qB& zLl|1KYzOYB0AK&~uM)b;M?`+j;}Eg7Zzc4n+V{J((Qne+ydf7r&T1Q>E}ErB3hZ(Z zR}XuVg*=f&LRy@0w`MrvuS5a0G1Ud#L!Q{*glgegUt^9r)TGwg@zAnj$2Bz{s}13A z@}=*v&I*|76`-6e;^?oA{isw&!?Q((++SI&J4^Q344sjA-6}AJ>75dUXL`MgCl+Zw z- ze?F%q9oc-PzbW`GoZOqKB0cw zBdv9U#{p9{JstG$Wm|S+^G@~PE}(FO#%P>H?x)mBkwEjJ=DR?Ou8mIJMACUw}8Nnrv%Y}|cldqLN66p))S@&Vy5_Wg{TohZEaxz<;&)s@4Y1>AN zBZnUR%|@$y)Qi^Tt-O%O)?5%XY0m8@+C<8|B^cn0WPBzyC7B{Os3$1LlGjptYpR83 zgl|f#3w(aMmMfZJZQ<$|b$ThWddMkD1G`)VnoV0)i7o#$}W>85t*2qz5?( z@{4pATWCp>W)sBO;_M67*E`QxE6m0|I6;|?&9Qqk6nn3SWqQzD{7JNFfEem}%pby-NuWAimU-d`D)14Gy-~AKc(y z_9r5VNVSQC%7Ed$&ywr(^T!IvM{8CRT?H!{E#*Kn&nu0{9SLw2Chbv`Zz zgKF2$+(8aCBIdVN7$MJUcl{`*mG!$;5G3lX8;wbZXyi z95;OTBPjxnjKHUvnvIB^f}^B6PmdoXR4qn5F?dYo83T@eN?+CkR@Ud^XPI>5yqs$N zI&qn}TyGq1U^vF95*t>mjZXFfgh#eWc}ISfF0dM5?vA5t*W3FhFpcK>!Y`;aNi|_5 z*gdl`NEvno`nuMglUm$lK972p`4SCVRvb;atASYbx<8d0&{!b2EtUR$f_ za-Y;OJ^{wWJ2VPQEZ{3#RLxUI4tYBp1c9NdDuh^Z%FOtQF#5YA05w4Qcr=YUc=~yw zbAsk26ne6w>XN|#1JbQ)5>N(`1Vl1`O?b|Hdy19eiI?76q4A5FgbPMh5uJ)VulJm%d7axpKkGdKM;_)eI+ z#ih-D2A8YfoK4hF-meCp>sQ_w^0_3+J&GbZ*4`|$^hxsJt?JCHrHUJ*Zl~cqk(${U z2xxo$&`wi}1Y3k{oxN(7UF{@9n7dUT&-KhT_O)4t&;wO$941sV z1wUzhIca#`nqlwfc`@Nlm85~)Z-HR?fRMAW?{TbAx@rr`qy-fl2f>uR<$?DCUeq63 zovs{|=&97Ib$XZ;6Mv_GZ%*ycoUI7XrN#pDXGL1vexz`UNDP${a>XRh1Spx+7I9pF zA4?dV!3uk#3Zp(o%Db{wru-C5uayShGuBm>HBpOYO@vM&^*gjLC+cTDT6r6`zfPI% zz&ukQR71>nnN(_@)z5wa0VRA8Gvgd^0znHE&4zA4{|rHhokGVCZw_RvUWuZdnx(lW z*eOV8Tf!0;{(%X3C{q5ib1pvFvx!XQCy?^1r9Wfur#1_Sg&UsAJ)`*jFAk_&RAJpM)H`?D@$$v}`76?B zJIiS~Rii&luIe8A>vh6Ij`_g4vYSlKpr>Wu)guoTEi7G}j%JtbI2w_bY;&0Di&O#x zB(T`mS-?j(<^}m$kks8-FGr$_2{#|!M}94Aii~AxPO10cjl&>oLHS-S$Y`<=>5COf z-4Il7MEd)hFUW{wL@M`L;4>m^+2p8OSntkg9M!d-NU?_vA^hIxhw)=tP*!%7oBcfak~y3uX3c%I!Goq}LLLi0@~fem^ayZf1-wi!S}wVlG<(-STfeqdGQ>llHF z1=2-(d_G8jLJTQ|l96ea5O3s(FNw|*)Ujvn07EvPruKJEwUb*eu zu!m@;dS{4(o|LeK?z`66)i~2r(w>}K9Xm%gmp5HA7kcGCEU7xBFp^GNB06FmFm%Cc zy2N77QjOXi3JMW4=}eFBhu7C~R6AQfQ3@0t-Rt^9#TR z4df9Ad>?{EWnDV`^As$qsH@IipJfFW$}=TL6_%G4`bmMi4}?;mxGL|FMqQ!63*5y) z>H~R!pLu(tIIc*7>WDq?o!j({yZyi1J)57uiN>*qWcP-0?e&>{zo6eAzTMRos23Gv z|M3L|gSnHus77v3;591NO+t51H@o|MV)Q-$AW#ti5co-Vgu4@pkMPHZs{b0`|2-4` z7^&bIp;5csB=>@ybAuxPRO7O7c)U-b_y6I$Vjw!eat$B=0RII5fc)gAn`-E;aCR@2 le`j9sCyogM0PqM3#Nz_-{|yGj4H*Cs;i89^E4s9|`VXjVBWnNv delta 19759 zcmYg%Wl$bX&@E1I_YmCO-5r9vySqD!yE_l=?iM`3-Q9z0a0q_$eqY^Nch8U0T{}Iy zU0bztwx@Tb7rd+w98pOQ5(*Ox>51!M9pjcQa{3nfT#XptF^=!(wFJ#GZP1wM?hQ7#f0Md z(67xj&TEkE02LN&V&NtKug^NLjQ`;Q(v#(&Di#{rfB^d%#^}IO&12GUgFZOsa(mQ3cj4Vji?AC4s_*Fb{l*ill*-+)hM2mv-OA4%RLMz*Has5gs;MN4whl^fgRQaa{y8|)CH7#9# zzJbyMm4?1%stjhdul5E8R7~9=f7}?6TD1nc^8vBZwaUlfBEI68Ao_Kx9jpjtLkJ1L z#1o2>08=+#JC69ddc?7IcZ6LT6IEQlzY3Ws zePjR3u$t}*v}m>E32f;MlCGDSHH^c)Nk?lh2EPeR+&XarK(g*Fw5GZ>@-df3_dlIE zPjZ487ta3F5~&*soCH_NwRnSy6!`wgyN*`j0IDjCO!fmGW0W?VHN22q+$H0R>KvT! zX&kvt)fB1dbnqL0wn5>Q0|%y6O%}f;w71Lo@QiDxW1LOr%0zqCiJAH;kE3egyr*by zd#sCUu7i%ptA3`7{mv6tppOafbYwY)ui~&8?K6ys%_Y@IN-B(fD(7i{V52%d!~b>l z2avflt~t{sq$?B#S*Nl1bu`VOH>TzeD4^^2e4^erWTSw9uTy!wZa0FNx4-AYN9(r} zW-c|8sXwf&@NeYu&q96=krV(Sujke__uS5*S#Yog>udCEs5iqddnvW3N7v5kQl?7i z6tZtXHS{_DJN;V1X&+xa{x**OILlrjFzCcB=N7{&r(Lj->7Ok~-yeViQZ?)H3iFse zaYJ4frhxyF)FW1#XfoRrI*t$h9ctN+eeK6w7@y%BPO3WQdk;1iHQ&iRHa90R5i2OP zbDs3HakU{%BwGDYYbT`4@`!ux1*K6}0$*<|~)$Dw*}FlZFCk*tUJL%!JEK7rWHp<^4P3Z2?N|suLF9J`2OPa7!T9 zk844-y;XEpg{wXCE1`-x9*+&9q_QZsGYBjMpuDUb31{^hsghNAiN5DN{#!Vwo6)Za z)2~s?7rvvAiXjlRcTr+9;r;%hK;2WI!Q84@-C0cvCtFUdFND7Ga`|SunD&lJ0`+|# z*}3&#Rxb%=uS@|$hj5Wyh4D_fp%pgJ4)FTNf-WfmkhLIF<~o?z zdq&#{$327$S0c?V8P_Q)V{t-~|2-S~{p;OjrK`VRy{Ec_voL?spyWL%$QjHJ5;6Xv`y6>Y*S@Q zPEOsQVxmyd@G?p9vV}#dKuVo{FnGv*?OtTzmts>6AtS`4`a&A;w(0WN@yfua`o&U2 zZM*IVg|UTNeCV|KN)s#u+#(vbD%$3D%E{s1Jo#!?!Bmn2=cn zeqZWno7ztAD?aCx|%bz7&i&mPmZVmsg9)9Fs%Fqj?cH^`)KGv>&FEQXNx?F;`t+yxcg!WyuG z2oC>JH%Pa3vvm%^6icEKeAPL}%5NhwgGe9<1RSG=o;QSWPNWFk8eJ%`8eLz){jjoR z!poyywf9$FINdlwV+@5|04c$cC0#wfLqVmvM3*;f^~XXnoIip740nrG;<1&7-O{Kg z3x3>^M;hRX7>-+N-f*%ph32xqR1sr^tc{fA+^7^g=6r!Z-{LLNCw{t`Oj?xHYix$e zy<5y8tf!smpo(gl@%JS-^oQ85voj9FH#3jnQIl^3v~f}W)E%W?0J4~C+F=CwE@fnM z*%aZzQ4G_EpOaaX1qzu~`;LVj$4ZH1a`3?h6;(c)pml56kQrExxXv$PTK&v&?)^@d zplId>2Ymx^jHw?n)F>~7RrD{7qZ&y^P98>%2DB!shyz#yz`qA27XAi4FpS48i|1$HZ`>S-aQ4XVY2d?3 zSt_HkhV(VHZhAlgzjcpFZw=1#$RbuwtM~w=6b6dJACkIk5RcQk!D{0K7{XXjApQHaT?Zia#)% z2ke~R;6bTkzng33ZN4^6>0Iwm;4_r#oG!>aA#Kgo+_VcS>7Q6P2fU9H&EFC)6Yj|!4lyD zk6vk~Q{Z0(G+4`El{2|TaaZPiB06Cv6S6!1PE1h7M3b;+!VuIE`Fh4)@lz>}IKa@7 z3cB^(vlhoRm*E}gb+@j8>l#Ohg~ zH7h6-!W3dN&O|8%$s zwX?+T0Gx(Hp+X+n_a|4Lg#b-f?4G-7hNQ!tqzF32^V**lGMayH-x%B6M`cQ)k@XT* zgcAmwbbC4_t$1UYSA(+$T=qC16Futq-=$<#j(IHY1TR9m{Xf`X;TinF%n-*An69sa2il|N~hr(C*kLW7!6xmBnT9okLe0o2Nc zsvZX+St0&Q3`ojoe7o8XMU2%Q8Is8N{1Ho!NoNCe_M=X(!a1o;9>Lugk^0H^ghi$E zIPZ^^_mpG6sM}Al*Ql=|`^3w>$Dm#F^2n9%js5P{`$+dU#-m28seqm(7ZL4=V`0|J z+?e9I$e~kd-f=$m{_qPoduTN!;EuUJqp%@`!oC{y<=%QA>jmzqDCZA>wT_iRu`Rb1 z<#vs|1k1od3h7V?Qq2Wt)tJ`#UVYTEj|&6eI!0SnWi6>35sulhC&rGtz)?^JT=u&U zXyeZ`awO~OnI0($k*!DMYox0ef-T{g${}EgIoz_)k=4;EG*mDC%I= zSc;$k{_}zT368fQE5qz5s!Z57EmQxSgseM6_RW`FMX;5H#h;L5U7taeRUrc7^ZVf- zDCfC9TTSDKHXzBTf;O7BZP4GID3NtA_eEOf^>Crp`#42Fz1+Quszd&e+rwYFGdHr# z?iCYm4aU)~NKawoexJ|^C~CW>E}^Xwa2##{hsDo-;i&_)Tu$5;G z)NG*56CVnfXPxwlgRBiFFy@&Z)CZBTgzt>Gh}b{5K?44c3ae6BoAWDzIem86^U@D} zPCHqY3<}I_#nfX+)tr{K0&)E#o6m(Sbk3+W2!{F?J1RGy0zK0J`(1%Cn!`kB40NN{ zVd{7fq zZUl9Ti(Mr7#Onfo?)wVuoEooOP}Gm0(b)vzRzyDv8eA}Hc6V6$F~Z-BGTN87M!Nb% z%ZbA6F5iTCc;X9yz1Iab<2em{;a+w(Uc?Bz+!tS5gOXt7nECW7*-hW#PDU`u_aM8bP}<&4U- zJ#^fIQ?@j=vOeW*Qgop3u_y;EInMgI!^K+p} z3~};Lc-EHXi^CVyGlDq&`=c8#-hNy4wU4LktGP7edb^)5z&IX#jN{q8WB0BC)VHU? z=R{b5U<#q_rK`67VJD2TlVG+t9d@9i{@AJ1)|(gF{bnbuEV{Ytgh2SI#Shp)3e3>% zX9ko)BJ^7GG<5Hm>$31G-!HH)DTV1?&+vUUK^q_%2}4=1<%yE3D2w89h(cyUn4M@g zUCp?9CyAIMerY&$B^lZD<#vNVa<1`C{gTa+I3Pp#CgDvD6e~%w#R|g&61BF)v@GOQ z>>Kth76s%1+a9Osex{gyj*!qwmyXnM5>c2QFTXNXEhaCVCRxW zzp&<|BjvJ^)HV_vzbZ|(vZ}#%^|@f>;46c$q?c7$aHW16t10nKO8mw^@@q$VZ2tV8 zb!(#AU6H$)Vjj8T@@u-!V3QVeBIn*70~d#nC4u?M%@?0e3#!TW?R<+pWGfrtT0o2C zp3lQ!{x|j5=JHC!dGq}{FK8*~vAm^dLO8-SohY_9i;qDWTKNwST>cJ@+V0SaVFT2@ zdsoN5=!W&iFDaMJcV3(2;d7WP8Rxv$(JRqkJa&Ra4^&rg;iiUB(qHloEyi%Gy9=9A zI9*DgY3Q<_$~!s-kH!kX^iN9F09w{PdnsE7LZ5l2l^zSYdK7SXemOjeaEcHIsrQg~ zhPAKghawV-)EA4a3Z z|1!`~WlWmfJ%O>@O3#zlm=~hl2{52Iz@|B%PUv1*-} zn+sN{;G%y`8cqY;(_u+F>9?@?(LB&vBf0022z>*OdaUB_e3Wq1O8D%EeSgb4w;br0 z8FCXwB-iI1H|57uHa$?IAP;nSA+{XDJt<2TYc=L3hb;Ht$gkr`&CY}F?@^FMKKTWf zo&m)?9X3G$B;JQ10sWq6SHr*Yhd0>M1LKM#WINWKC;3wGIzsPqEEu7mwigx{o{CdK z2fubCnl)3G{uV2|ZEMEgKekGDP;7JC5E|}nr%|@YbG#X6@6VHnfK80soaoHbZ}1+U zT=Jy|U=jf2<&CHb@$SF9g;$8qeeJuyAVoj97*gQAz4I}Ylkqijya$lVL6mEv9#y1S zSgpkC1pdOF(X6(oNX_Zza zG(-{O`c+N+-_mJSL?>i9TK!tVcy@hLJ2}lHFw}tz$<1z+ZlS4&Ex*|}0_(@V-C3>L zRD;(&cHiw5$X;zdCspb-S!h?3cFYHYS#j?I47^m5r&01~dY2{_+jmDs(2u z)6!Z5vtr?dL9hd__OYcZZdjhxC2J=>&?&x8e~g{#p2Cw!kdL1RNnrGMGx^(9gE@Ic-Rsjbb=~*vJ@y{ntKu{0k3^lffldWD4z;oPO_h#D(FZ9vr#F;>J7(=Kjp* zbL;qolo)JgV5R*i&-=B3MPb0w8B5dpcp2+$H6g{5Oa7FkqcJ?@3;SU7aI1!<%Ye2Y z3>2Z}j@}<=z;Y!(V9M}wNnH2TbTI~bX!%NL<(&lOgA!C+EP3^p!?1TIMzI$zR?k;< z>o|y>Mk2Q%oIN8GTQ(yC~ zkb%Y8dwnCZjah(cwH&F}N5e{3#Ma(?t;Ncy4$aCJ`CrZA@qJVo*zDkV($`3|5R}cD zGaIoXHPogpWEUeGM%Dq@&)IC+>R`kauL*0;EhcFSq9ilIP$izj(inoTBnLIuo4|#EQzjT#C!CMJ~hzC=v<#k zFszv8gNCLENb{ZdTb+WP>PtTQduOdv`rXrQal>z|aA2-**3gH5>slO>4H0D69vd9s z2=YY^n<}l6ZuZilVuQ^U$0`b8XIHDXFLwoW>L0n}iLYz+Y99Zvo0?25tgZNFg2^A~ z(NL;$eo3iLT$3D$G_18Y7p5YVK;^sQ2=D|6wsG*h^r_{-#6RI>DU+y_ghnJf$Q4OT z@rgI=KAKNFUA1)a&uZZ?k=9-^(tBxW!-T+(o=bxlQtq|hAyJMpD6~W z3h1Ty94lBxD)^~jC8C}3PDnTm50bn?C4 z!b+4k_cZf_*wZ&x=2sA>P2BWDZ=nAyV3=yG zTJ=Oal$(Xw>;CEg=-}V~!AG6^?s+ z#Vq@!?pv{qiYFBr6~aX^uso-xIQunAR%>%%=+ zQ}y}=3)==f3dAh+a{LX$6>anwW)=`2TftCoi;?3ZlE6w`If=jo4_+=poAM7iv9k`a z2S24)=f6Ta4+(+ADq+JJ?QN{rOf)59y0Qutofw3LT-1`sRW1Pn{KIU@?}RgO%M);y z3UXuQ=4qPxSLMnPE~u=idC>_m`K*k+UCnXY_AYSGH(L-GFGN28DYU^UGeJT&YGD>ANWICP22p1!REc)RcZN&Qac%XE9E>mZg#-4Jo8In9_Mv6GaXy>D31caHOpJ! zU$D*JRJPX$CICs*)~JKBae=0!r?2B?rVgcYro$GpUGfXlyJbscG~3EPh~6=jt(|?9 zZMmyJFlkk^;JYUXw!jYe?+abW6(Od5_-(ATmW)@hP{-IU}O_7$w zHD@o6I1NVqPYD@BdcY~IP1QHMEKL^iut{l-TIRmYM`OS_s5Y{8Y{b$W z$d$supY!Qfw8x%zZoom%>H~OYpD>hdmJXb0qo?o|?sZRAVXC&v;OZ2Hd|!rBS)^2N zKPwyiqt?q#;mGibC%>&(7ojAQcAYFHzCh{)tpzV2nqUNEy;pI+ef*6$BUEEgo7GdCin0Sm}9QdPA z54|d9rD=E!D zvfo~4@qqJGfiK{DbO4~jSh}S#(Vh;BhWuOSvMj`5?-uT)rp+Jhmu3k-RbTl&WQxrg zjvf7s_9zt4dTfWql{1zJKe%QiLZ3;HRo~B1-b*g6Ty|JM<=$UXL*rUv?fdfjyHm^H z)t6NbSf)w~HWpg~YY&cMk=Sh0cN(J#?Git^(h zw|$UTWd5UmgkoKz`@A_UZJAnQN8U>5uq+Ul_WmUDkluCnC%7VNxgKL|9SBy|Ia+#} zO*gIxI!9%gg9XY&`pj|ej8}NFf^}61IkJ<)w7iYcICHC7I2G0Yo=8L)#E8Ggn!HcL zvZLDxiz{RJ?18)PKj%vK;KVA(r5I-rxq7HdipNf2GUH}O?22r9sqHr~a!5gftti2d zsv{$&^YjWJEBIE!qBOLS%;=z}+%~duC^Z+-J^wqo))>Wnf1O#XDe|ONDo(br?lP<9 zsxc)mCm8t+k^AowaJAyqXH9ANErnet;J)I#FmvskC4dCzLCZ`7L3cm+-R6tw3-eI) zh%~PLdLkjMiq4OL6cEmW9lp83^}vZitA2}x0eCD}sTzFp{oyZ#b`>UX7}-j#Km@3= zUv(l8{BuS3dzwpMv@Eo+BMJ*J{70+Z7u`}@RBjMr(_u?}x)nt9I~(5rr+DZGx?w8C zD@9+h3iw8zrBX#AGUumCHv^91&GAm`l7qXQ*eY7XHpJXCS23&OQb13 z$k6|<`R9Ml|Hc9Oh$+nEU;aD8OV0g|n%&5q!T;l9iVm3nxQJfhfBfGJ4-o(PtITfy z`6&vlbU;~W_4laHBG%mPH12p$&ynq{(XF*+CIxs>k|@*Y#Y8pCFWt;7lGaYfbC+s&e5_IkK$^5a)LhKe2(f;gQ6}DdV`O~WL8aS3L1z5j$|=6jtGYVX ztmVslXN~Ety4!0W-~0JMPM4>DrqFffJG4T_tG4oA2hB!^k2(|R_AC88znh=058+hz z1AF-?D_rli`nTgI=2!f*LP(mMhRyW;!0QLOOkMW412wGgoSy2+rSbDq?R<7U_D+eh z!o2R#dp-7(^MRqzjhXk3Sn**j2}5BLO3j2J3h5(p6RZPs#No(FSo7|$s!yL=pFO5g z^c_rOBBq)!=k)!*M`I-y6#ReXbB+HAE0Cd3CSKodspCYq!v?9LBuX{%b1i0TKO*Z0YV9){*LSs**F)Ge!*0P@X}l`i8HR9_a#g=tun4_& z{n8)H8q7H$I0vyOwf3}=#{2QYO8aSX8Sr@EE{!C4<2460;#Q(8;iv9~Cy6tY_l99W zu_gp))OG)b+NuPltsIe;p#)dO*kM?#<)T+JKUIpp2QD<6_z%=`U9yh>DWbT%Z#Puz zJmQXHeuTg8e{l-BK`NRuHRaHsTVKlEf{%D9TB&r@2!e$i2$ zafhY(=()>%8~lOYW)Bo{Rg}grPy8KQ%57(|pGWjv0h<5U1SGgDJ*_}AV}4p>?5DcuFo@Q422)y$8 zcF$Zi2JOS&=u+#K*>`U8f3tJ;Rh47HAOX z6Dk!E{m}uK>7vJoMsNdevFI+MqP6I3k7Epce3tDa8h@{t=bfpw~a578{IYm58NQ zjkHH+Df*5^HjerKNc`TPML>3NmMhH9A5Clro#mbZjcFXczmzn*cM0Fr2Ch;qG7MX} zlEUOdmvp$70;)s;QB^lov@vYf+qWe(F@QF7I;`8DWPzH5VQVd?Wb6pY!_P{%X8YaJ zdoF;_t%JePr!|+Xofm%d2G_ZM;WA^{Li#v%_Nr+tu3-JXgVc`GOAx?V6i_G&)ytnu zdrLvXH5w{YBU{($_;%E)HdgP{OI)dz^a-lj_x4DJI=9M|Nqci0+3UW>^$9heM{<_G$<`(@|T|YY>OCc(%b%9 zPzLmv`SbN9(y`@CE#oD9HYB7Q-;`iU$CKquM{REVVFF(k$Qj#fzBP89L_RVhljV%5 zmq-ys^;v{GM`Q-HFb=nFVt2#uGpF!18HCYz%QZD@`ZInO_Q?W``Sq$U={3hOnWGtk zmV}N?KZDGS{?f#T^i9@j_+mw;e-G0%QH;SPagm?`PkJp;OmU-8-_>O$TNHdXORiBh z{8M5h3ZEupnK(y~v(Qez5^p!uhis}6x;2W`OU$h<@|gnNiZ}mo6iP9`E$5trRg*k; zizK!73kaa|wBP}>(S%Ak-m-S}I*qWc$cf;oQV}6?U?S9fWwHDu0VURgPVqll+vB;j zP4}I8a|p?d&Tg55;QKQuO~?GY&r(F1ZdT34xrq#k6PK4^HrmD(V+VqPbe8bBhkHtO z?=L*acNa)9pXPDuG3$=wgs>6HmcqC|TMZ+p~j*_<{&i#hs6Y{R6iEKo~A@#UDhT$A+WkCypZ z&0n_S9%evsWdi)gIGiz=BN`5_V$fXFQM}`JT7BfO^!XFn^(` zCG9>e?UEsQ9Cm42$Gh-#By?x7we|dbL2C^bE`JKw>c##_-k{MJ$ecfU~!sh{R? zNz9PXLXd^SNWBe=Q1fvd?j*-C`D8DfVhjfd%|wXV_N%}1PLbnwP7c42@DIDo2PUg& zkbmF_CO>gxPbFec)aXc}z7RDU!{ivaPY>`IlkYbF{q$tNJ+<=Ic0?q|L~~MvPTqot zCXrUyI5wIgAoB2+MCP2~U>l!9w0r`!%<0I`VB%w=i#fd%w+V(sP6QEk3WYgFwR1+G z6yLMkM?xRfm;C0&Hjk!l6bLC)$bo!0ooS;>1VhG8qZ9B$mPtfa#PFY&OleJL)nb2qWu|nCaRTK+9 zDDpjmU%Ln((~j4W!DN)tS(XMYuX?RW;^&y)`hTBgQtdnd7MnFG6l?@wJMO1OvSO1INBK35~MwW}Foy#Q7=; zmkyo^mP(w2{(Zs;h75xmoEj)(lr?%?=4pv7(4Z& zmKZ0r>QH)Q8?1E8CmVzu7;?&A;JosCcrpuSxrOJH`_!_u;Uj`J61*Y`e}2Rq48|$^ zRA4YJms&TE%<}Fm*2l(I+Z|XTy!vk1H=?Qd(L-#%O3wG(zPg-~!jlUyuf$ZkBZ95B zL894*jJ*j`!s&e&C7LN5*~bvpYfR zyF8QBMmzB8d5;_tFlfaz_v(n2R^EC15*zLN<}KX(9&3uvCo(NKUZ{%5iXUT)x_~;T zW4W1k&8w?#mun0kS<42*TFA?zq^v5+D5PH8{y?u=Pvw_dOJm_#{0{p(CjY_yDD@yo z+ek2Te3v@uyj1pw&z<=&8#%=DvqJgmLzx8wPAWjSkYUsy>gE|UqOP%4fm^CGj2;1x z!x0Y^JMyyu!;R{2g>}TTBj~zfQ~ED$PMM4Pf=0K^oeDeT<@E!gj+-QT@uS7g7q+w_ zSP{uT!|7)aLpYVVziyo$ht_@jQ*(n0?G&etC|2TDBzVvJ9<>}qP2*PU;fHA@N^mLb z5LybI`h`af+xyX&WYBX;mqwWp<4@$NeGo$C5-HXay#-GhE;CM3dHsFLi79vhx?(Q{ zNbj`liSMM0Q>Pe+s>Gh88W)QQnxuO*6#%C*HW}SiZ&Y2tPFVmO)%)FfY^}nwl`_ko z;GCR6gDvCKbF$`lsQ!!>4b+lC*8ELud6rd+WhLN>3E$@TOq-n4{($R7gbb$rljC*p z3?CiXc#yr2#8zSHd{BrQ%HoLF|Ks^w`j6Evt@Pf38^tqV9q5|lpM^h$Ah|txYx%L5 zySD!mk8gYR0q&J3+f2h5^8P~?Y#pPk5as)d8g}pRs4qLHDflw=G80Q9ALaB9r>{O! zDg%DRj`7orTJOcpN4mZfN{NliUdzrIE9)y8H(^@7FAWEMBm?Np*VL5eWUY|t$8KEK zWF8}b*snu?wbQYBeXr;X|M0hoOB9IPcR}~@@6Jp;hiOMwImoTH8Nx?Qj~V{ zdL?#d9jmUQL_bLlcPm^LO(%>FA6z*aZeKcVW~h9BqdjWFxLrhm%Q^IRc4DI5BiZkP zn}qdleG9>$1kWnxHe&coAI2NszXZ{|qlFb3hE)^@2ri(Brg9e4t3ToU(o|SUP+a&2xn99V(3fYf z0^hqHAP7-sPKlAv+orW^ax-5wBe4HPIe`~T5Gh}Z zX^?_nb{#gEIcTs~*syIU?(&wGsjQ0pO5o5{<8Pi3b)2<&t-sYI$;l#RP|$TWIlE1mf3r8**U6J(a>W~Z9V%;=RkNu>c6j2xBjle{ng1}5u@Xtqmlg1QbDJ(L(C(eP(+b+Jd zw?CrOnQ9GvDcXZ5#(ro$PdLiS;UeX6#!1D>Y&iq>?5V!Y1B|TDZs9@^cVUuD$zFL( zCxoZ$Q4@MeE;N_7p1>~!GC*YY*Pl~h-LPh#hYuu1V$jjOl-gfD!sK64C6>j~VY&yMsM3TXf@PlQ`ln zt`+oTDz>esyf}eDybeKl$)H;v_dPEYJh`#?{dj7XYE z$RA!|QNTcq7cA|CYx=ED+Yg8w@SIlEX}ytsximd&^;%W1=}t&Xzv*WmfjiON$qkAd z3A*1G4K~q({tVT2LGy>o7$J3l{CDT+LI^R}Z%NFQG%sN#cN0P`<0;w=3hzV7W_U6v zvwpe7lZJNEUeD*46Yg9JnXW7oDe6tXsHK%+5fsVd#hf_c(QHG?8)KMXEp} zN+Bp*l70x}0Gr+b?jf*X!|&Eel5 zQ*-4dUSy{xId1D~^F9{f45=P9B&CZS#*Rv%Gx_d*9GhDA+b;R;fx8}uxC4Yj8y=N@ zz*Pytw#?5l9p~ic^VVN{YZ>nxWdZo#%BZ3?nWZFD;`B@U^Ku0PcW{foc6|wWUu`nI z?L^g9UZRC=yKsyA`*)gw^Gx7})@1xyZzvaNTV}ImYw@97CQ|eSKtftddqJ_PP}V5o za$p|V-5UHZ#|ahr6K)xae9!F0XDKZ6{%XIMc+OZ|bZez%0^7^WfGq^l@RDP#;uKeG zw^}kQN6;%9F@)_)5B)mo4+uw9*xBfrwM7WSlqH;orh8U7gB}^*$0x4KWkxNy3&?Cd z%E3T)v}vFHHy6TQ;Jb~4%#sasj-ftj%k+UJ=e>TcFdf>IgGKP+);e_LGKzS}gN$&C z2N}Mj0N8hYf4wHR*IC%L(@Pbhf26yceki&`ZdiR|5E^ip=Ycy_F$EiEhKKx0o4lEX=5V~76dAvPb1D0 z&zlPW1pxmdjNvf5R2BG%Ys#{7zM)}XDM;&}|AqfsCD^+sFT4^QvUAyMCfOR0Q%as@#T5kT9N2E`88sAWs4N7 zsOPIfL&=H+@tIgjs>4lww^gNOVTOsq~zHx+N15s$38{YF<~?hohNqS6|!nW1<*C9 zFUTtZ%Ug&MpNQY2c#M8^>SlbIIM@JLwi!9*EoJn0N0gCeH<%&tbN%vNBJPK{!a~*P z0^nkV+`cNzf%jLXG$2mf|C3U*=5a5gTIq~e32O;!aiD8> ziq6}&Gld?G!hAc0m?0#tIYPxA`~hj)3V<5E=VmupDHGEZ*Wkm&+|3sIV1;MC!CE+e zk@L_>bqhL19yI2NXyDhPfaX9EpZ72LFdGDJ}o8q=1ug4;mR9uRp;k)gqzL zg8$~xz(^mAZ?Nf zVIXZ_)uV8l=?x=PQ&FILpt`#;7Lj@@Sk*;us5YT?@(e>dqf>I%ZV?3NKdeWU{n%fA zC=0EHlyeU%@2}JxrBC>pqd8 zZHwi^AuWeVLPBda)lY;I-R21)6?Uo%QV{xA%WAhvCYRu8XVdMHW`n`WX_Ahm8v z(Pa8`wB*}&U>uqRIs+KIff*6u-YG&`4}~I389H=4kNsL86Y#A2HBrso_7G!XRax|V zA{0VoCB@)iMouApl@8DnktO-_dz>jH$)Ebh6}qd8%HdZEU3&AbXls$s1HGK&6R@6P z*W{whnbX6o4{sC!!|*z&gYQoM;G?aO2j3mytFc4Z0n6BC&zM56SX;tjJdHjL7I_Xq z-Zc}vkyc_oQE){(8!z~;rax5~e$xbuXh~o#*cJs34fdj@ZDjbNQmkv)@S8RbsT4J( z`VM19_5Fx~&EC5Q!$K&elF2Js^JsKEXPJ0|j+f?`SVS6ROC!#MW@HoY_8|V|Xy}sd zoNU4e1~|5(s)Kbuf*Uxx%sa}+#Z7!~(}M9DKW>hh*m;*o-x={T_uF8dobyJvu>+CEhaF=_QN{?OTAWDcH36uOd7{SfWP0@ zZ@RClO&{(G&TAp=NFYKqqZaDvK+dA&m>XmuUlnNZh&>{5#3TwNsblDq!e;K8;6drM;E>l!PWBUEk-|d7*;9amkf)!zMOzTKtQxXf)fTnxqHUY_=4v!moOjg1Xm@nzW#x@5r*OTn&&FDLN=SLL5qW=Y_2`0x71W+UprSmVr zLm5@lH4H|a*sm_k*5kH&f@;rohMrU~7RNFsGpCn1^q=V)SLYfeI!rVN?%dmSW-N|R z4~ZryXxe#7yae7`3ZH^>zk{?0ShK)RTSM;uzG3`Z*3Tfh>*;d1_Ridjv7PePxTam* zYWI9AW9~}i7`bQW?rl_{fqT}r@u*|Ab%Ycs~UxtNNSlm(&-BhiCbc1zULGIjlUx{0U&1s4FqgT*X z|I|HgC*JDQ3dJ{PHM2|`|I=qxq1R~Gqt2zRE1TURdA~P&p2m5h1Iz`?8x0Qc%{=^6RbmD1aMenN-P%8mC)eE3dS3a!-sMCC#t!7-Y%y_3@-*(9%9A)2l*7E z@*SYOV7*q5yY~@vm}ILohypzWJ>>`Zx-0{D6T;dmfAT#C<86D7-~53&QEM;Zx<3N% z0qh7P|XKbq5m$aJ>2t-j_Nh=Y%07Y1$it6W``VJ{!bfM9uL*t#?Oo}p|XUEVPX(jvK6Hy zWQ!rjK4Zy}HQ}1E^d8$=mTWVjlqI=h#!~i%!JuT{GJ}*!vgf*@LCbw-?!A3JxA%R| z_m6YVbDrh*ohhp*zQ|z_5th zo&3T!sdf*#cb%YT#w&l@w`3siiJ*#Q6$F3Uu}LA2vSA@uoX*hP>-$$4Jop3MG=y!} z32T4X6SZ?D(V(KB?ns0npQD_$ za#J}#c1}d!d>886SbSCXiNBY8MF_1Kgb59Pj9`6bCZ8y^uEo{TRl7Is$s(Q~((RN?g8U4-=i*>VT> zUZwUWzO6A&mj0{f-l5aqiM$vPm5;VQ=v6;F>#$>zprA-6afLrq?L;G~TpWT4ir6tpnNP%c84T$R+Andc z<7dk`TQA;u9A>UB7InTy-iC7T&k)Dws~6sS;*ESWyM=pFOsa?VX^>X5uVHv`yon!H zS$op1e|iJovVP#FtN-0t)m~BXo{Q|j?z0{9Qhn=si)o4T=rI+P!^2*X`O61!V+aW# zEypVnuZAy z)|amJ^hJM{yjZLJJXNkF3A)S0M)T0GFL2AAPImQTkUs^smSA`20ew4}%>_E5XjvXQ z31LG!Yqcp1yfDIHp9yCppZ#C#)|g?Bs{&@O?b3#9PR@m$^4t9Zr}p)~J=*YV& zW4q-JAAZ+;{P9sd_whKu5pe7U`sgU6Z+WH~!MnWZ^2lVee;Ti!lCx1HAG*qtv*hM}D?RW&WhxrHCTMq53wOz}El|*# zw(G5+NG7l3?#D%dyo4`Y=(w;-#-KK;HO!Lovg6r&egCskO8Gb18Ikp>1Uy4R;mCse zxUtQ+IroFBZ)j)FJ@=uLmAaVhvmAA*G<=$RG~3XzXuW0C^{pxIL~@GNBX&YISe3_mW9e@&~18tr#YppIcMwUTxw zEqB|I!_OWCVI4_|4$cTcHRxMXx;hHy~a%JY^@`4K~d9N5Dk%mj` zJUH(e-HqU-hM%*f$E?>x)v9QNjC8Hq`S+&-Al0&VxLWrB8rBesC`%Q5^{tYdGB9M= z5G570!^K^kWuxv31B8GqQ-nrzZFMXp3tb!bL>@tEb^?r|BmW(tYqc-7Y$>Oh_x#-A z*KX2EZw8td0Y&&r32yZndPQ!v5-71{^F9zkvzb)r`B&icI1u=r6jYV^c2Bv z3wJp-m2%{d!*i5n8C9!L^Aw>T4emPpk<#R2rgcF?oKP0KEV$TfiNn@kX^Rt*=t&YQ zY^M7gv~q>5ZYB$(EM3Ss6HQVViE0i3t;OKdKBs4brQBZQGBxZ`gD`O?8^m!0newuC zPL`Y(=8)u+xtjLJz!B+Eg}q_1J#xp5L*pveFtc@ckgJJf;&BzuM)o&*EbZ%#Wr}8^ zF<#yw5iL>TPd&WD^lOwDECCBmWOU^nGad>hx5`yCT$`s&bQqnw*sHNkv2!}O$OkTx zPEuz3arPs&596y^-VSGX9_n7#dgQ4!(;E1zovMajiQXa4MjiDC(?Nxr0@Uxj09D>r z*thS*klCFv%Iv!9R^#$OR4LbEcP{aUWd2{?hL==u&NHqPaMik<29XJs36%R<&HW0h ztD~xNp0hD{RfRp}9`W>EyHT%$G#HU!#Ju41Qjd9ojSiEh;rWFN5=~Dow2*mSC!|$Z zEu86Xl-n7DcKEedW+yi| zX!6x>F$Dx&Q3ONQcdZy;nR{t5`;~h68e%iLm{}iEuCB@qIZTed%j`<9#7k9~3eFl3 z25+radwfvu*S2c4OK+@pMfcwEEXv9t-x-yF*Bx#S`x2xXCB!=!pZRruR%@?n@OM68 zkczx+B_Xu1xxo5^-`YZw7dFZr(x$5j07ABV0BZ{f^dRtK`4;iIi`LKEw}>?^x}3>P z6h;!dAw!Ur68K4l@g18~1o1mY{4~e5u-`Hx zfd>GBgE z|Iv4~64ixNYC-@&c@F@H{uF15$iyNIIb8mkdH$bttTh1O%C+Ed@8Iyi$Z)eM1Hb_` M2Dt#B!-ezqAH3@X%m4rY diff --git a/src/Mod/Material/StandardMaterial/Tools/headers b/src/Mod/Material/StandardMaterial/Tools/headers index f9ae18ac35..b8dd391207 100644 --- a/src/Mod/Material/StandardMaterial/Tools/headers +++ b/src/Mod/Material/StandardMaterial/Tools/headers @@ -5,6 +5,13 @@ Description DescriptionDE DescriptionPL Father +KindOfMaterial +KindOfMaterialDE +MaterialNumber +Norm +ReferenceSource +SourceURL +StandardCode YoungsModulus UltimateTensileStrength PoissonRatio @@ -21,21 +28,14 @@ Finish FireResistanceClass FractureToughness FragmentShader -KindOfMaterial -KindOfMaterialDE -MaterialNumber Model -Norm -ReferenceSource SectionFillPattern SectionLinewidth ShearModulus Shininess SoundTransmissionClass -SourceURL SpecificHeat SpecularColor -StandardCode TexturePath TextureScaling ThermalConductivity