diff --git a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat index 71bec5659b..1e973e4b8b 100644 --- a/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMg3F24.FCMat @@ -8,7 +8,7 @@ Name = [DE]AlMg3F24 NameDE = AlMg3F24 Father = Metal YoungsModulus = 70000 MPa -UltimateTensileStrength = 250 +UltimateTensileStrength = 250 MPa PoissonRatio = 0.3 Density = 2700 kg/m^3 KindOfMaterial = Aluminium @@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium MaterialNumber = 3.3535.26 ModulusOfShare = 27000 Norm = DIN 1725 -ThermalExpansionCoefficient = 2.30E-005 +ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 5 -YieldStrength = 180 +YieldStrength = 180 MPa diff --git a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat index 7b0bd17559..b5443c587c 100644 --- a/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat +++ b/src/Mod/Material/StandardMaterial/AlMgSi1F31.FCMat @@ -8,7 +8,7 @@ Name = [DE]AlMgSi1F31 NameDE = AlMgSi1F31 Father = Metal YoungsModulus = 70000 MPa -UltimateTensileStrength = 310 +UltimateTensileStrength = 310 MPa PoissonRatio = 0.3 Density = 2700 kg/m^3 KindOfMaterial = Aluminium @@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium MaterialNumber = 3.2315.72 ModulusOfShare = 27000 Norm = DIN 1725 -ThermalExpansionCoefficient = 2.30E-005 +ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 -YieldStrength = 260 +YieldStrength = 260 MPa diff --git a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat index 25d6e1a71e..429528a763 100644 --- a/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat +++ b/src/Mod/Material/StandardMaterial/AlZn4-5Mg1F35.FCMat @@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium MaterialNumber = 3.4335.71 ModulusOfShare = 27000 Norm = DIN 1725 -ThermalExpansionCoefficient = 2.30E-005 +ThermalExpansionCoefficient = 0.000023 m/m/K UltimateStrain = 10 -YieldStrength = 290 +YieldStrength = 290 MPa diff --git a/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat b/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat index fe6ce83d09..c110c88a95 100644 --- a/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat +++ b/src/Mod/Material/StandardMaterial/CalculiX-Steel.FCMat @@ -12,4 +12,4 @@ PoissonRatio = 0.3 Density = 7900 kg/m^3 SpecificHeat = 590 J/kg/K ThermalConductivity = 43 W/m/K -ThermalExpansionCoefficient = 12 um/m/K +ThermalExpansionCoefficient = 0.000012 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat b/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat index 69b7e7f421..82220e24d0 100644 --- a/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat +++ b/src/Mod/Material/StandardMaterial/Glass-Generic.FCMat @@ -13,4 +13,4 @@ ProductURL = https://en.wikipedia.org/wiki/Soda-lime_glass YoungsModulus = 72000 MPa PoissonRatio = 0.22 Density = 2520 kg/m^3 -ThermalExpansionCoefficient = 9.00E-006 +ThermalExpansionCoefficient = 0.000009 m/m/K diff --git a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat index 4e773b387b..9a95155307 100644 --- a/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-15CrNi6.FCMat @@ -10,7 +10,7 @@ DescriptionDE = höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelrä DescriptionPL = Wysokowytrzymała stal węglowa Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1000 +UltimateTensileStrength = 1000 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -18,6 +18,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.5919 ModulusOfShare = 81000 Norm = EN 10084 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 -YieldStrength = 680 +YieldStrength = 680 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat index 467f89d2d0..04dff069c2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-17CrNiMo6.FCMat @@ -9,7 +9,7 @@ NameDE = 17CrNiMo6 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1150 +UltimateTensileStrength = 1150 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6587 ModulusOfShare = 81000 Norm = EN 10084 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 8 -YieldStrength = 830 +YieldStrength = 830 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat index 4484ccb93d..19a1b656d6 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C22.FCMat @@ -11,7 +11,7 @@ DescriptionDE = kleiner Vergütungsdurchmesser, gut schweißbar DescriptionPL = Stal stopowa do nawęglania Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 400 +UltimateTensileStrength = 400 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -19,6 +19,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0402 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 27 -YieldStrength = 230 +YieldStrength = 230 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat index 86b56b7b45..fb46f1d284 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C35.FCMat @@ -10,7 +10,7 @@ Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 +UltimateTensileStrength = 480 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0501 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 -YieldStrength = 300 +YieldStrength = 300 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat index 1af38ce8e1..c26e4e68d1 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C45.FCMat @@ -10,7 +10,7 @@ Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 580 +UltimateTensileStrength = 580 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0503 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 -YieldStrength = 340 +YieldStrength = 340 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat index 2beb355193..82b8e17d13 100644 --- a/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-1C60.FCMat @@ -10,7 +10,7 @@ Description = Non-alloy quality steel DescriptionPL = Wysokogatunkowa stal niestopowa Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 +UltimateTensileStrength = 650 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.0601 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 -YieldStrength = 380 +YieldStrength = 380 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat index 1118ca02a7..b157d6d097 100644 --- a/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-20NiCrMo2.FCMat @@ -9,7 +9,7 @@ NameDE = 21NiCrMo2 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 900 +UltimateTensileStrength = 900 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.6523 ModulusOfShare = 81000 Norm = EN 10084 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 -YieldStrength = 630 +YieldStrength = 630 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat index 96e248c28b..c9a091a691 100644 --- a/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-28Mn6.FCMat @@ -8,7 +8,7 @@ Name = 28Mn6 NameDE = 28Mn6 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 +UltimateTensileStrength = 800 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.117 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 -YieldStrength = 590 +YieldStrength = 590 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat index 7efa37f451..9abca7d843 100644 --- a/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-2C10.FCMat @@ -8,7 +8,7 @@ Name = 2C10 NameDE = Ck10 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 640 +UltimateTensileStrength = 640 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.1121 ModulusOfShare = 81000 Norm = EN 10084 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 390 +YieldStrength = 390 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat index 0f3748ac41..9a6d4c5a9a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-30CrNiMo8.FCMat @@ -9,7 +9,7 @@ NameDE = 30CrNiMo8 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 +UltimateTensileStrength = 1250 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.658 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 -YieldStrength = 1050 +YieldStrength = 1050 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat index 52a8d08cd9..4137656806 100644 --- a/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-34CrNiMo6.FCMat @@ -9,7 +9,7 @@ NameDE = 34CrNiMo6 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1200 +UltimateTensileStrength = 1200 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6582 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 -YieldStrength = 1000 +YieldStrength = 1000 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat index e5cfdea17e..5a5e15532f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36CrNiMo4.FCMat @@ -9,7 +9,7 @@ NameDE = 36CrNiMo4 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1100 +UltimateTensileStrength = 1100 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6511 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 10 -YieldStrength = 900 +YieldStrength = 900 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat index 6fbbf178b6..f1713159e5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-36NiCrMo16.FCMat @@ -9,7 +9,7 @@ NameDE = 36NiCrMo16 DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 1250 +UltimateTensileStrength = 1250 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.6773 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 9 -YieldStrength = 1050 +YieldStrength = 1050 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat index f2c4d9c440..8216515e4b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C15.FCMat @@ -8,7 +8,7 @@ Name = 3C15 NameDE = Cm15 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 740 +UltimateTensileStrength = 740 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.114 ModulusOfShare = 81000 Norm = EN 10084 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 440 +YieldStrength = 440 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat index 186591edd9..7ef7a7c3da 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C22.FCMat @@ -8,7 +8,7 @@ Name = 3C22 NameDE = Cm22 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 +UltimateTensileStrength = 550 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1149 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 -YieldStrength = 350 +YieldStrength = 350 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat index 60117d8ac2..5d48995ea3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3C35.FCMat @@ -8,7 +8,7 @@ Name = 3C35 NameDE = Cm35 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 630 +UltimateTensileStrength = 630 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.118 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 -YieldStrength = 430 +YieldStrength = 430 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat index 06117f8c98..7fcc9e758c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-3V45.FCMat @@ -8,7 +8,7 @@ Name = 3V45 NameDE = Cm45 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 700 +UltimateTensileStrength = 700 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1201 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 -YieldStrength = 500 +YieldStrength = 500 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat index b04c7b9a1e..cc7d296675 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C10.FCMat @@ -8,7 +8,7 @@ Name = [DE]C10 NameDE = C10 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 +UltimateTensileStrength = 650 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0301 ModulusOfShare = 81000 Norm = DIN 17210 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 -YieldStrength = 380 +YieldStrength = 380 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat index e679aed01d..810cc4a27a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C15.FCMat @@ -8,7 +8,7 @@ Name = [DE]C15 NameDE = C15 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 +UltimateTensileStrength = 750 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Case-hardened steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl MaterialNumber = 1.0401 ModulusOfShare = 81000 Norm = DIN 17210 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 -YieldStrength = 430 +YieldStrength = 430 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat index 7fb1e7e051..f2527cff43 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C22E.FCMat @@ -8,7 +8,7 @@ Name = C22E NameDE = Ck22 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 +UltimateTensileStrength = 500 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1151 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 -YieldStrength = 340 +YieldStrength = 340 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat index d03cd7996a..658e01e673 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C25E.FCMat @@ -8,7 +8,7 @@ Name = C25E NameDE = Ck25 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 +UltimateTensileStrength = 550 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1158 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 -YieldStrength = 370 +YieldStrength = 370 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat index e2de9e0dfb..942280acdc 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C30E.FCMat @@ -8,7 +8,7 @@ Name = C30E NameDE = Ck30 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 +UltimateTensileStrength = 600 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1178 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 -YieldStrength = 400 +YieldStrength = 400 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat index f3802115a4..9cb0a08300 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C40E.FCMat @@ -8,7 +8,7 @@ Name = C40E NameDE = Ck40 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 650 +UltimateTensileStrength = 650 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1186 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 -YieldStrength = 460 +YieldStrength = 460 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat index 34e8d78916..a2c533262b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C50E.FCMat @@ -8,7 +8,7 @@ Name = C50E NameDE = Ck50 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 750 +UltimateTensileStrength = 750 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1206 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 -YieldStrength = 520 +YieldStrength = 520 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat index 73f8c86e83..8297e32765 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C55E.FCMat @@ -8,7 +8,7 @@ Name = C55E NameDE = Ck55 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 800 +UltimateTensileStrength = 800 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1203 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 -YieldStrength = 550 +YieldStrength = 550 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat index 5212efd6cf..4acfc3a986 100644 --- a/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-C60E.FCMat @@ -8,7 +8,7 @@ Name = C60E NameDE = Ck60 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 850 +UltimateTensileStrength = 850 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Heat-treatable steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl MaterialNumber = 1.1221 ModulusOfShare = 81000 Norm = EN 10083-1 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 13 -YieldStrength = 580 +YieldStrength = 580 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat index 72b1661747..5534457580 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295-GC.FCMat @@ -8,7 +8,7 @@ Name = E295 GC NameDE = St50-2K Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 +UltimateTensileStrength = 590 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0533 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 420 +YieldStrength = 420 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat index 9b29aa11e2..b0fc39d94c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E295.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E295.FCMat @@ -8,7 +8,7 @@ Name = E295 NameDE = St50-2 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 490 +UltimateTensileStrength = 490 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.005 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 20 -YieldStrength = 295 +YieldStrength = 295 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat index fd7c46a05f..52e9d86953 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335-GC.FCMat @@ -8,7 +8,7 @@ Name = E335 GC NameDE = St60-2K Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 +UltimateTensileStrength = 690 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0543 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 490 +YieldStrength = 490 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat index a828881d4b..1bfae1d44a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E335.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E335.FCMat @@ -8,7 +8,7 @@ Name = E335 NameDE = St60-2 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 +UltimateTensileStrength = 590 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.006 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 16 -YieldStrength = 335 +YieldStrength = 335 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat index a5bed840e7..ed50ae92e0 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360-GC.FCMat @@ -8,7 +8,7 @@ Name = E360 GC NameDE = St70-2K Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 780 +UltimateTensileStrength = 780 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0633 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 560 +YieldStrength = 560 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat index f9168ec55a..9d7c733469 100644 --- a/src/Mod/Material/StandardMaterial/Steel-E360.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-E360.FCMat @@ -8,7 +8,7 @@ Name = E360 NameDE = St70-2 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 690 +UltimateTensileStrength = 690 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.007 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 -YieldStrength = 360 +YieldStrength = 360 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat index 5a6094081b..33c4518b8b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-100.FCMat @@ -9,7 +9,7 @@ NameDE = GG-10 DescriptionDE = für gering beanspruchte Teile Father = Metal YoungsModulus = 88000 MPa -UltimateTensileStrength = 100 +UltimateTensileStrength = 100 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,5 @@ KindOfMaterialDE = Guss MaterialNumber = 0.601 ModulusOfShare = 34000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 -YieldStrength = 0 diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat index 8b9eb9922d..3dcad49f1a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-150.FCMat @@ -9,7 +9,7 @@ NameDE = GG-15 DescriptionDE = für dünnwandige Teile wie Gehäuse, Ständer Father = Metal YoungsModulus = 95000 MPa -UltimateTensileStrength = 150 +UltimateTensileStrength = 150 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.6015 ModulusOfShare = 37000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 -YieldStrength = 98 +YieldStrength = 98 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat index ec8ff797c6..f8bf3d85e7 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-200.FCMat @@ -9,7 +9,7 @@ NameDE = GG-20 DescriptionDE = Hebel, Lager , Lagerböcke Father = Metal YoungsModulus = 105000 MPa -UltimateTensileStrength = 200 +UltimateTensileStrength = 200 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.602 ModulusOfShare = 40000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 -YieldStrength = 130 +YieldStrength = 130 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat index 348e512086..c2c2ff416f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-250.FCMat @@ -8,7 +8,7 @@ Name = EN-GJL-250 NameDE = GG-25 Father = Metal YoungsModulus = 115000 MPa -UltimateTensileStrength = 250 +UltimateTensileStrength = 250 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -16,6 +16,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.6025 ModulusOfShare = 44000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 -YieldStrength = 165 +YieldStrength = 165 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat index ae4b5ea11c..cab170481a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-300.FCMat @@ -9,7 +9,7 @@ NameDE = GG-30 DescriptionDE = hochbeanspruchbar, für Motorständer, Lagerschalen Father = Metal YoungsModulus = 125000 MPa -UltimateTensileStrength = 300 +UltimateTensileStrength = 300 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.603 ModulusOfShare = 48000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 0 -YieldStrength = 195 +YieldStrength = 195 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat index 8f9f5e38bf..c32d904c5d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJL-350.FCMat @@ -9,7 +9,7 @@ NameDE = GG-35 DescriptionDE = höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse Father = Metal YoungsModulus = 135000 MPa -UltimateTensileStrength = 350 +UltimateTensileStrength = 350 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.6035 ModulusOfShare = 52000 Norm = EN 1561 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 15 -YieldStrength = 228 +YieldStrength = 228 MPa 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 7c8e8918c6..213c682dd2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-350-10.FCMat @@ -9,7 +9,7 @@ NameDE = GTS 35-10 DescriptionDE = gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 +UltimateTensileStrength = 350 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8135 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 -YieldStrength = 200 +YieldStrength = 200 MPa 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 2d0b9ccdf2..7645e6168b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-550-4.FCMat @@ -9,7 +9,7 @@ NameDE = GTS 55-04 DescriptionDE = Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 550 +UltimateTensileStrength = 550 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8155 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 -YieldStrength = 340 +YieldStrength = 340 MPa 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 2e633efc97..0ae31e26e1 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMB-650-2.FCMat @@ -9,7 +9,7 @@ NameDE = GTS 65-02 DescriptionDE = Gabelköpfe Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 650 +UltimateTensileStrength = 650 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8165 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 2 -YieldStrength = 430 +YieldStrength = 430 MPa 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 7795a7b61e..2c1dcc0c62 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-350-4.FCMat @@ -9,7 +9,7 @@ NameDE = GTW 35-04 DescriptionDE = dünnwandige Teile, Fittings, Beschläge, Förderketten Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 350 +UltimateTensileStrength = 350 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,5 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8035 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 4 -YieldStrength = 0 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 5fc2c4e81e..7fc336671b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-360-12.FCMat @@ -9,7 +9,7 @@ NameDE = GTW S38-12 DescriptionDE = für Verbundschweißteile Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 380 +UltimateTensileStrength = 380 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8038 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 5 -YieldStrength = 200 +YieldStrength = 200 MPa 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 5d6e1e1271..e3a1db6ad4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-400-5.FCMat @@ -9,7 +9,7 @@ NameDE = GTW 40-05 DescriptionDE = gut schweißbar, Auspuffkrümmer, Schraubzwingen Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 400 +UltimateTensileStrength = 400 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.804 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 7 -YieldStrength = 220 +YieldStrength = 220 MPa 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 8820d3f914..54a7d84d9f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJMW-450-7.FCMat @@ -9,7 +9,7 @@ NameDE = GTW 45-07 DescriptionDE = schlagfest, Fahrwerksteile Father = Metal YoungsModulus = 175000 MPa -UltimateTensileStrength = 450 +UltimateTensileStrength = 450 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.8045 ModulusOfShare = 67000 Norm = EN 1562 -ThermalExpansionCoefficient = 1.00E-005 +ThermalExpansionCoefficient = 0.00001 m/m/K UltimateStrain = 10 -YieldStrength = 260 +YieldStrength = 260 MPa 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 e9190a6f38..b5c620d5fe 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-400-15.FCMat @@ -9,7 +9,7 @@ NameDE = GGG-40 DescriptionDE = Pumpen-, Getriebegehäuse Father = Metal YoungsModulus = 167000 MPa -UltimateTensileStrength = 400 +UltimateTensileStrength = 400 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.704 ModulusOfShare = 65000 Norm = EN 1563 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 -YieldStrength = 250 +YieldStrength = 250 MPa 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 43117a431f..eb0dfd0aaf 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-500-7.FCMat @@ -9,7 +9,7 @@ NameDE = GGG-50 DescriptionDE = Seiltrommeln, Bremsteile, Zylinderköpfe Father = Metal YoungsModulus = 170000 MPa -UltimateTensileStrength = 500 +UltimateTensileStrength = 500 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.705 ModulusOfShare = 66000 Norm = EN 1563 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 -YieldStrength = 320 +YieldStrength = 320 MPa 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 e4c15b2759..28a58eb35a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-600-3.FCMat @@ -9,7 +9,7 @@ NameDE = GGG-60 DescriptionDE = Kurbelwellen, Stangen Father = Metal YoungsModulus = 177000 MPa -UltimateTensileStrength = 600 +UltimateTensileStrength = 600 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.706 ModulusOfShare = 67000 Norm = EN 1563 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 -YieldStrength = 370 +YieldStrength = 370 MPa 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 b9396caf84..6a9acd4d6e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-700-2.FCMat @@ -9,7 +9,7 @@ NameDE = GGG-70 DescriptionDE = Kurbelwellen, Zahnräder, Turbinenschaufeln Father = Metal YoungsModulus = 180000 MPa -UltimateTensileStrength = 700 +UltimateTensileStrength = 700 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.707 ModulusOfShare = 67000 Norm = EN 1563 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 -YieldStrength = 420 +YieldStrength = 420 MPa 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 e367920661..7119a251f3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-EN-GJS-800-1.FCMat @@ -9,7 +9,7 @@ NameDE = GGG-80 DescriptionDE = Zahnräder Father = Metal YoungsModulus = 180000 MPa -UltimateTensileStrength = 800 +UltimateTensileStrength = 800 MPa PoissonRatio = 0.3 Density = 7200 kg/m^3 KindOfMaterial = Cast iron @@ -17,6 +17,6 @@ KindOfMaterialDE = Guss MaterialNumber = 0.708 ModulusOfShare = 67000 Norm = EN 1563 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 2 -YieldStrength = 480 +YieldStrength = 480 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat index 6bf95d99a7..232f5dbd6e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G16Mn5.FCMat @@ -9,7 +9,7 @@ NameDE = GS-16Mn5N DescriptionDE = Gehäuse, Zahnräder, Bremsscheiben Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 +UltimateTensileStrength = 430 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.1131 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 260 +YieldStrength = 260 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat index 8d83a0eb9d..16f77de629 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G200.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G200.FCMat @@ -9,7 +9,7 @@ NameDE = GS 38 DescriptionDE = mittlere dynamische und stoßartige Belastung, gut schweißbar Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 380 +UltimateTensileStrength = 380 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.042 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 -YieldStrength = 200 +YieldStrength = 200 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat index 95776d0daf..96cef16178 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G20Mn5.FCMat @@ -9,7 +9,7 @@ NameDE = GS-20Mn5v DescriptionDE = Gehäuse, Zahnräder, Bremsscheiben Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 +UltimateTensileStrength = 500 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.112 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 360 +YieldStrength = 360 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat index feadb067fc..1954c02e32 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G230.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G230.FCMat @@ -9,7 +9,7 @@ NameDE = GS 45 DescriptionDE = mittlere dynamische und stoßartige Belastung, gut schweißbar Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 450 +UltimateTensileStrength = 450 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.0446 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 230 +YieldStrength = 230 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat index 27b86eb227..a61fad3dc9 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G260.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G260.FCMat @@ -8,7 +8,7 @@ Name = G260 NameDE = GS 52 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.0552 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 -YieldStrength = 260 +YieldStrength = 260 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat index edd92b1f80..9172006df3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G300.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G300.FCMat @@ -8,7 +8,7 @@ Name = G300 NameDE = GS 60 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 600 +UltimateTensileStrength = 600 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.0558 ModulusOfShare = 81000 Norm = DIN 1681 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 -YieldStrength = 300 +YieldStrength = 300 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat index 0a1f0c31b0..42b51f2637 100644 --- a/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-G30Mn5.FCMat @@ -8,7 +8,7 @@ Name = G30Mn5 NameDE = GS-30Mn5 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cast steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Stahlguss MaterialNumber = 1.1165 ModulusOfShare = 81000 Norm = DIN 17205 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 14 -YieldStrength = 400 +YieldStrength = 400 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat index 36dd400856..5527c46d0e 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S185.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S185.FCMat @@ -9,7 +9,7 @@ NameDE = St33 DescriptionDE = für geringe Beanspruchung Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 310 +UltimateTensileStrength = 310 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0035 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 18 -YieldStrength = 190 +YieldStrength = 190 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat index fdc239db91..f1a0c53e35 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JO.FCMat @@ -8,7 +8,7 @@ Name = S235JO NameDE = St37-3U Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 +UltimateTensileStrength = 360 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0114 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 -YieldStrength = 235 +YieldStrength = 235 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat index ed707d1541..c1022232b4 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JR.FCMat @@ -9,7 +9,7 @@ NameDE = St37-2 DescriptionDE = üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 +UltimateTensileStrength = 360 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0037 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 -YieldStrength = 235 +YieldStrength = 235 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat index d5b1450348..c1bec1075a 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S235JRG1.FCMat @@ -9,7 +9,7 @@ NameDE = USt37-2 DescriptionDE = üblich für mäßige Beanspruchung Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 +UltimateTensileStrength = 360 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0036 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 26 -YieldStrength = 235 +YieldStrength = 235 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat index 51df41d3e8..20ba890e73 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S260NC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE260 N DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 350 +UltimateTensileStrength = 350 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0971 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 30 -YieldStrength = 280 +YieldStrength = 280 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat index 636b0895de..688962c66d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JO.FCMat @@ -8,7 +8,7 @@ Name = S275JO NameDE = St44-3U Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 +UltimateTensileStrength = 430 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0143 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 275 +YieldStrength = 275 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat index a2d180e76a..c3ea65196c 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275JR.FCMat @@ -9,7 +9,7 @@ NameDE = St44-2 DescriptionDE = Wellen, Achsen, gut bearbeitbar, gut schweißbar Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 430 +UltimateTensileStrength = 430 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0044 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 275 +YieldStrength = 275 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat index 29d5d681c5..293ae626d8 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S275N.FCMat @@ -8,7 +8,7 @@ Name = S275N NameDE = St E 275 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 370 +UltimateTensileStrength = 370 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.049 ModulusOfShare = 81000 Norm = EN 10113-2 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 24 -YieldStrength = 275 +YieldStrength = 275 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat index dc86a69a05..6110c223ac 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JO.FCMat @@ -8,7 +8,7 @@ Name = S335JO NameDE = St60-2U Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 +UltimateTensileStrength = 510 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0553 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 355 +YieldStrength = 355 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat index 5bb4da9804..c8e400119d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335JR.FCMat @@ -8,7 +8,7 @@ Name = S335JR NameDE = St53-3 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 +UltimateTensileStrength = 510 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0045 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 355 +YieldStrength = 355 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat index 28c55117a2..846baeaa86 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S335N.FCMat @@ -8,7 +8,7 @@ Name = S335N NameDE = St E 355 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 470 +UltimateTensileStrength = 470 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0545 ModulusOfShare = 81000 Norm = EN 10113-2 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 355 +YieldStrength = 355 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat index d051e7325e..6b0caf8ba3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S340MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE340 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 480 +UltimateTensileStrength = 480 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0974 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 -YieldStrength = 340 +YieldStrength = 340 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat index 6d7a5aa4d8..87a9598c07 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S355J2G3.FCMat @@ -8,7 +8,7 @@ Name = S355J2G3 NameDE = St52-3 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 510 +UltimateTensileStrength = 510 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.057 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 22 -YieldStrength = 355 +YieldStrength = 355 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat index 0d62ec9db7..e53e257c9b 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S380MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE380 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0978 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 23 -YieldStrength = 380 +YieldStrength = 380 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat index ef4fd98042..b22c690d86 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE420 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 +UltimateTensileStrength = 550 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.098 ModulusOfShare = 81000 Norm = EN 10149 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 21 -YieldStrength = 420 +YieldStrength = 420 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat index fc1e67ecf2..97cd36ec9f 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S420N.FCMat @@ -8,7 +8,7 @@ Name = S420N NameDE = St E 420 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8902 ModulusOfShare = 81000 Norm = EN 10113-2 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 -YieldStrength = 420 +YieldStrength = 420 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat index 033eb07fa7..8ebc4c62e5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE460 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 590 +UltimateTensileStrength = 590 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0982 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 19 -YieldStrength = 460 +YieldStrength = 460 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat index a9e7ee5af2..061bf5fed2 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S460N.FCMat @@ -8,7 +8,7 @@ Name = S460N NameDE = St E 460 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 550 +UltimateTensileStrength = 550 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8901 ModulusOfShare = 81000 Norm = EN 10113-2 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 -YieldStrength = 460 +YieldStrength = 460 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat index bf9c8a1210..a13325edbd 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S500MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE500 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 620 +UltimateTensileStrength = 620 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0984 ModulusOfShare = 81000 Norm = EN 10149 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 17 -YieldStrength = 500 +YieldStrength = 500 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat index 517e709cfa..e0a3cf8b59 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S550MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE550 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 680 +UltimateTensileStrength = 680 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0986 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 -YieldStrength = 550 +YieldStrength = 550 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat index 05f223c1d9..ee1ce87192 100644 --- a/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-S690MC.FCMat @@ -9,7 +9,7 @@ NameDE = QStE690 TM DescriptionDE = gut biegbar, Fahrgestellrahmen, Hilfsrahmen Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 790 +UltimateTensileStrength = 790 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Cold forming steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Kaltumformstahl MaterialNumber = 1.0966 ModulusOfShare = 81000 Norm = SEW 092 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 15 -YieldStrength = 690 +YieldStrength = 690 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat index 89fd640581..29c1b70484 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-37-2K.FCMat @@ -9,7 +9,7 @@ NameDE = St 37-2K DescriptionDE = mäßige Beanspruchung Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 460 +UltimateTensileStrength = 460 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Mild steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Baustahl MaterialNumber = 1.0161 ModulusOfShare = 81000 Norm = EN 10025 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 320 +YieldStrength = 320 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat index 795ba57387..11e3e166d3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-255.FCMat @@ -8,7 +8,7 @@ Name = [DE]St E 255 NameDE = St E 255 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 360 +UltimateTensileStrength = 360 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0461 ModulusOfShare = 81000 Norm = DIN 17102 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 260 +YieldStrength = 260 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat index 1bea3c1ed1..779cbeb1f5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-315.FCMat @@ -8,7 +8,7 @@ Name = [DE]St E 315 NameDE = St E 315 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 440 +UltimateTensileStrength = 440 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.0505 ModulusOfShare = 81000 Norm = DIN 17102 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 320 +YieldStrength = 320 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat index 932ef937e2..545fce20ff 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-380.FCMat @@ -8,7 +8,7 @@ Name = [DE]St E 380 NameDE = St E 380 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 500 +UltimateTensileStrength = 500 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.89 ModulusOfShare = 81000 Norm = DIN 17102 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 380 +YieldStrength = 380 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat index d89ca1461d..32fb019c2d 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-460.FCMat @@ -8,7 +8,7 @@ Name = [DE]St E 460 NameDE = St E 460 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 560 +UltimateTensileStrength = 560 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8905 ModulusOfShare = 81000 Norm = DIN 17102 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 460 +YieldStrength = 460 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat index 1aa82ba235..fa03fe1cf5 100644 --- a/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-St-E-500.FCMat @@ -8,7 +8,7 @@ Name = [DE]St E 500 NameDE = St E 500 Father = Metal YoungsModulus = 210000 MPa -UltimateTensileStrength = 610 +UltimateTensileStrength = 610 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Fine grain steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Feinkornstahl MaterialNumber = 1.8907 ModulusOfShare = 81000 Norm = DIN 17102 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 0 -YieldStrength = 500 +YieldStrength = 500 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat index 61e1827762..19af477cec 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiMoN17-13-3.FCMat @@ -9,7 +9,7 @@ NameDE = X2CrNiMoN 17 13 3 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher Father = Metal YoungsModulus = 200000 MPa -UltimateTensileStrength = 580 +UltimateTensileStrength = 580 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4429 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 35 -YieldStrength = 295 +YieldStrength = 295 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat index f4408029a1..82c82ac484 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X2CrNiN24-4.FCMat @@ -8,7 +8,7 @@ Name = X2CrNiN24-4 NameDE = - Father = Metal YoungsModulus = 200000 MPa -UltimateTensileStrength = 600 +UltimateTensileStrength = 600 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4362 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 25 -YieldStrength = 400 +YieldStrength = 400 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat index 20995014be..8b00b2e917 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X39CrMo17-1.FCMat @@ -8,7 +8,7 @@ Name = X39CrMo17-1 NameDE = - Father = Metal YoungsModulus = 213000 MPa -UltimateTensileStrength = 750 +UltimateTensileStrength = 750 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4122 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 12 -YieldStrength = 500 +YieldStrength = 500 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat index 6f08dbef14..12298fc343 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X3CrNiMo13-14.FCMat @@ -8,7 +8,7 @@ Name = X3CrNiMo13-14 NameDE = - Father = Metal YoungsModulus = 216000 MPa -UltimateTensileStrength = 900 +UltimateTensileStrength = 900 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -16,6 +16,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4313 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 11 -YieldStrength = 800 +YieldStrength = 800 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat index 841c621640..0f9ae29141 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNi18-10.FCMat @@ -9,7 +9,7 @@ NameDE = X5CrNi 18 9 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik Father = Metal YoungsModulus = 200000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4301 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 -YieldStrength = 210 +YieldStrength = 210 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat index 20a18b4dba..eada8193fb 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X5CrNiMo17-12-2.FCMat @@ -9,7 +9,7 @@ NameDE = X5CrNiMo 17 12 2 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik Father = Metal YoungsModulus = 180000 MPa -UltimateTensileStrength = 520 +UltimateTensileStrength = 520 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4401 ModulusOfShare = 68000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 -YieldStrength = 220 +YieldStrength = 220 MPa diff --git a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat index 1e89d71594..06528c39b3 100644 --- a/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat +++ b/src/Mod/Material/StandardMaterial/Steel-X6CrNiTi18-10.FCMat @@ -9,7 +9,7 @@ NameDE = X10CrNiTi 18 9 DescriptionDE = schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau Father = Metal YoungsModulus = 200000 MPa -UltimateTensileStrength = 500 +UltimateTensileStrength = 500 MPa PoissonRatio = 0.3 Density = 7800 kg/m^3 KindOfMaterial = Stainless steel @@ -17,6 +17,6 @@ KindOfMaterialDE = Niro MaterialNumber = 1.4541 ModulusOfShare = 81000 Norm = EN 10088 -ThermalExpansionCoefficient = 1.10E-005 +ThermalExpansionCoefficient = 0.000011 m/m/K UltimateStrain = 40 -YieldStrength = 200 +YieldStrength = 200 MPa diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.csv b/src/Mod/Material/StandardMaterial/Tools/Materials.csv index 9f380bba72..a66b2f5358 100644 --- a/src/Mod/Material/StandardMaterial/Tools/Materials.csv +++ b/src/Mod/Material/StandardMaterial/Tools/Materials.csv @@ -1,107 +1,107 @@ FileName|Name|NameDE|Description|DescriptionDE|DescriptionPL|Father|Vendor|ProductURL|SpecificPrice|YoungsModulus|UltimateTensileStrength|PoissonRatio|AmbientColor|Color|CompressiveStrength|Density|DiffuseColor|EmissiveColor|Enlargen|EnvironmentalEfficiencyClass|ExecutionInstructions|Finish|FireResistanceClass|FractureToughness|FragmentShader|KindOfMaterial|KindOfMaterialDE|MaterialNumber|Model|ModulusOfShare|Norm|SectionFillPattern|SectionLinewidth|Shininess|SoundTransmissionClass|SpecificHeat|SpecularColor|StandardCode|TexturePath|TextureScaling|ThermalConductivity|ThermalExpansionCoefficient|Transparency|UltimateStrain|UnitsPerQuantity|VertexShader|ViewColor|ViewFillPattern|ViewLinewidth|YieldStrength ABS|ABS||This is a blend 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://en.wikipedia.org/wiki/Acrylonitrile_butadiene_styrene|3|2320 MPa|38 MPa|0.35||||1070 kg/m^3|||||||||||||||||||||||||||||||||| Acrylic-Glass|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||https://en.wikipedia.org/wiki/Poly%28methyl_methacrylate%29||2 MPa||0.38||||1190 kg/m^3||||||||||||||||||||||||||||||||||75 MPa -AlMg3F24|[DE]AlMg3F24|AlMg3F24||||Metal||||70000 MPa|250|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.3535.26||27000|DIN 1725|||||||||||2.30E-005||5||||||180 -AlMgSi1F31|[DE]AlMgSi1F31|AlMgSi1F31||||Metal||||70000 MPa|310|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.2315.72||27000|DIN 1725|||||||||||2.30E-005||10||||||260 +AlMg3F24|[DE]AlMg3F24|AlMg3F24||||Metal||||70000 MPa|250 MPa|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.3535.26||27000|DIN 1725|||||||||||0.000023 m/m/K||5||||||180 MPa +AlMgSi1F31|[DE]AlMgSi1F31|AlMgSi1F31||||Metal||||70000 MPa|310 MPa|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.2315.72||27000|DIN 1725|||||||||||0.000023 m/m/K||10||||||260 MPa Aluminum-6061-T6|Aluminum 6061-T6||Precipitation-hardened, Nonferrous Aluminum alloy|||Metal||https://en.wikipedia.org/wiki/6061_aluminium_alloy||69000 MPa|310 MPa|0.33||||2700 kg/m^3||||||||||Aluminium|Aluminium||||||||||||||167 W/m/K||||||||| -AlZn4-5Mg1F35|[DE]AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal||||70000 MPa|350|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.4335.71||27000|DIN 1725|||||||||||2.30E-005||10||||||290 -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|12 um/m/K|||||||| +AlZn4-5Mg1F35|[DE]AlZn4,5Mg1F35|AlZn4,5Mg1F35||||Metal||||70000 MPa|350|0.3||||2700 kg/m^3||||||||||Aluminium|Aluminium|3.4335.71||27000|DIN 1725|||||||||||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||http://en.wikipedia.org/wiki/Concrete||32000 MPa||0.17|||25 MPa|2400 kg/m^3||||||||||||||||||||||Masterformat 03 33 13|||||||||||| Glass-E-GlassFibre|Glass-E||Glass Fibre|||Glass||https://en.wikipedia.org/wiki/Glass_fiber|||3445 MPa||||1080 MPa|2580 kg/m^3|||||||||||||||||||||||||||||||||| -Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass||https://en.wikipedia.org/wiki/Soda-lime_glass||72000 MPa||0.22||||2520 kg/m^3||||||||||||||||||||||||||9.00E-006|||||||| +Glass-Generic|Glass||Generic soda-lime glass|Normalglas|Szkło sodowe|Glass||https://en.wikipedia.org/wiki/Soda-lime_glass||72000 MPa||0.22||||2520 kg/m^3||||||||||||||||||||||||||0.000009 m/m/K|||||||| Glass-S2-GlassFibre|Glass-S2||Glass Fibre|||Glass||https://en.wikipedia.org/wiki/Glass_fiber|||4890 MPa||||1600 MPa|2460 kg/m^3|||||||||||||||||||||||||||||||||| -None|None||This is a not defined material|||None|||0|0 MPa|0 MPa|0||||0 kg/m^3|||||||||||||||||||||||||||||||||| +None|None||This is a not defined material|||None|||||||||||||||||||||||||||||||||||||||||||| PLA|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||http://en.wikipedia.org/wiki/Polylactic_acid|4|3640 MPa|49.6 MPa|0.36||||1300 kg/m^3|||||||||||||||||||||||||||||||||| -Steel-15CrNi6|15CrNi6||High-strength carbon steel|höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelräder|Wysokowytrzymała stal węglowa|Metal||||210000 MPa|1000|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.5919||81000|EN 10084|||||||||||1.10E-005||9||||||680 -Steel-17CrNiMo6|17CrNiMo6|17CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|1150|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.6587||81000|EN 10084|||||||||||1.10E-005||8||||||830 -Steel-1C22|1C22|C22|Case hardened alloy steel|kleiner Vergütungsdurchmesser, gut schweißbar|Stal stopowa do nawęglania|Metal||||210000 MPa|400|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0402||81000|EN 10083-1|||||||||||1.10E-005||27||||||230 -Steel-1C35|1C35|C35|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal||||210000 MPa|480|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0501||81000|EN 10083-1|||||||||||1.10E-005||21||||||300 -Steel-1C45|1C45|C45|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal||||210000 MPa|580|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0503||81000|EN 10083-1|||||||||||1.10E-005||14||||||340 -Steel-1C60|1C60|C60|Non-alloy quality steel||Wysokogatunkowa stal niestopowa|Metal||||210000 MPa|650|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.0601||81000|EN 10083-1|||||||||||1.10E-005||11||||||380 -Steel-20NiCrMo2|20NiCrMo2|21NiCrMo2||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|900|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.6523||81000|EN 10084|||||||||||1.10E-005||10||||||630 -Steel-28Mn6|28Mn6|28Mn6||||Metal||||210000 MPa|800|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.117||81000|EN 10083-1|||||||||||1.10E-005||13||||||590 -Steel-2C10|2C10|Ck10||||Metal||||210000 MPa|640|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.1121||81000|EN 10084|||||||||||1.10E-005||0||||||390 -Steel-30CrNiMo8|30CrNiMo8|30CrNiMo8||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|1250|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.658||81000|EN 10083-1|||||||||||1.10E-005||9||||||1050 -Steel-34CrNiMo6|34CrNiMo6|34CrNiMo6||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|1200|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6582||81000|EN 10083-1|||||||||||1.10E-005||9||||||1000 -Steel-36CrNiMo4|36CrNiMo4|36CrNiMo4||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|1100|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6511||81000|EN 10083-1|||||||||||1.10E-005||10||||||900 -Steel-36NiCrMo16|36NiCrMo16|36NiCrMo16||höchste Beanspruchung, Wellen, Zahnräder||Metal||||210000 MPa|1250|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.6773||81000|EN 10083-1|||||||||||1.10E-005||9||||||1050 -Steel-3C15|3C15|Cm15||||Metal||||210000 MPa|740|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.114||81000|EN 10084|||||||||||1.10E-005||0||||||440 -Steel-3C22|3C22|Cm22||||Metal||||210000 MPa|550|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1149||81000|EN 10083-1|||||||||||1.10E-005||24||||||350 -Steel-3C35|3C35|Cm35||||Metal||||210000 MPa|630|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.118||81000|EN 10083-1|||||||||||1.10E-005||17||||||430 -Steel-3V45|3V45|Cm45||||Metal||||210000 MPa|700|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1201||81000|EN 10083-1|||||||||||1.10E-005||14||||||500 -Steel-C10|[DE]C10|C10||||Metal||||210000 MPa|650|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0301||81000|DIN 17210|||||||||||1.10E-005||16||||||380 -Steel-C15|[DE]C15|C15||||Metal||||210000 MPa|750|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0401||81000|DIN 17210|||||||||||1.10E-005||14||||||430 -Steel-C22E|C22E|Ck22||||Metal||||210000 MPa|500|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1151||81000|EN 10083-1|||||||||||1.10E-005||20||||||340 -Steel-C25E|C25E|Ck25||||Metal||||210000 MPa|550|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1158||81000|EN 10083-1|||||||||||1.10E-005||19||||||370 -Steel-C30E|C30E|Ck30||||Metal||||210000 MPa|600|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1178||81000|EN 10083-1|||||||||||1.10E-005||18||||||400 -Steel-C40E|C40E|Ck40||||Metal||||210000 MPa|650|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1186||81000|EN 10083-1|||||||||||1.10E-005||16||||||460 -Steel-C50E|C50E|Ck50||||Metal||||210000 MPa|750|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1206||81000|EN 10083-1|||||||||||1.10E-005||13||||||520 -Steel-C55E|C55E|Ck55||||Metal||||210000 MPa|800|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1203||81000|EN 10083-1|||||||||||1.10E-005||13||||||550 -Steel-C60E|C60E|Ck60||||Metal||||210000 MPa|850|0.3||||7800 kg/m^3||||||||||Heat-treatable steel|Vergütungsstahl|1.1221||81000|EN 10083-1|||||||||||1.10E-005||13||||||580 -Steel-E295|E295|St50-2||||Metal||||210000 MPa|490|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.005||81000|EN 10025|||||||||||1.10E-005||20||||||295 -Steel-E295-GC|E295 GC|St50-2K||||Metal||||210000 MPa|590|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0533||81000|EN 10025|||||||||||1.10E-005||0||||||420 -Steel-E335|E335|St60-2||||Metal||||210000 MPa|590|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.006||81000|EN 10025|||||||||||1.10E-005||16||||||335 -Steel-E335-GC|E335 GC|St60-2K||||Metal||||210000 MPa|690|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0543||81000|EN 10025|||||||||||1.10E-005||0||||||490 -Steel-E360|E360|St70-2||||Metal||||210000 MPa|690|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.007||81000|EN 10025|||||||||||1.10E-005||11||||||360 -Steel-E360-GC|E360 GC|St70-2K||||Metal||||210000 MPa|780|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0633||81000|EN 10025|||||||||||1.10E-005||0||||||560 -Steel-EN-GJL-100|EN-GJL-100|GG-10||für gering beanspruchte Teile||Metal||||88000 MPa|100|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.601||34000|EN 1561|||||||||||1.00E-005||0||||||0 -Steel-EN-GJL-150|EN-GJL-150|GG-15||für dünnwandige Teile wie Gehäuse, Ständer||Metal||||95000 MPa|150|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.6015||37000|EN 1561|||||||||||1.00E-005||0||||||98 -Steel-EN-GJL-200|EN-GJL-200|GG-20||Hebel, Lager , Lagerböcke||Metal||||105000 MPa|200|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.602||40000|EN 1561|||||||||||1.00E-005||0||||||130 -Steel-EN-GJL-250|EN-GJL-250|GG-25||||Metal||||115000 MPa|250|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.6025||44000|EN 1561|||||||||||1.00E-005||0||||||165 -Steel-EN-GJL-300|EN-GJL-300|GG-30||hochbeanspruchbar, für Motorständer, Lagerschalen||Metal||||125000 MPa|300|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.603||48000|EN 1561|||||||||||1.00E-005||0||||||195 -Steel-EN-GJL-350|EN-GJL-350|GG-35||höchstbeanspruchbar, für Teile mit konstanter Wanddicke, Pressenständer, Turbinengehäuse||Metal||||135000 MPa|350|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.6035||52000|EN 1561|||||||||||1.00E-005||15||||||228 -Steel-EN-GJMB-350-10|EN-GJMB-350-10|GTS 35-10||gut spanbar, Schaltgabeln, Getriebe-, Achsgehäuse||Metal||||175000 MPa|350|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8135||67000|EN 1562|||||||||||1.00E-005||10||||||200 -Steel-EN-GJMB-550-4|EN-GJMB-550-4|GTS 55-04||Randschichthärtung, Kurbelwellen, Bremsträger, Federböcke, Kipphebel||Metal||||175000 MPa|550|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8155||67000|EN 1562|||||||||||1.00E-005||2||||||340 -Steel-EN-GJMB-650-2|EN-GJMB-650-2|GTS 65-02||Gabelköpfe||Metal||||175000 MPa|650|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8165||67000|EN 1562|||||||||||1.00E-005||2||||||430 -Steel-EN-GJMW-350-4|EN-GJMW-350-4|GTW 35-04||dünnwandige Teile, Fittings, Beschläge, Förderketten||Metal||||175000 MPa|350|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8035||67000|EN 1562|||||||||||1.00E-005||4||||||0 -Steel-EN-GJMW-360-12|EN-GJMW-360-12|GTW S38-12||für Verbundschweißteile||Metal||||175000 MPa|380|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8038||67000|EN 1562|||||||||||1.00E-005||5||||||200 -Steel-EN-GJMW-400-5|EN-GJMW-400-5|GTW 40-05||gut schweißbar, Auspuffkrümmer, Schraubzwingen||Metal||||175000 MPa|400|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.804||67000|EN 1562|||||||||||1.00E-005||7||||||220 -Steel-EN-GJMW-450-7|EN-GJMW-450-7|GTW 45-07||schlagfest, Fahrwerksteile||Metal||||175000 MPa|450|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.8045||67000|EN 1562|||||||||||1.00E-005||10||||||260 -Steel-EN-GJS-400-15|EN-GJS-400-15|GGG-40||Pumpen-, Getriebegehäuse||Metal||||167000 MPa|400|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.704||65000|EN 1563|||||||||||1.10E-005||15||||||250 -Steel-EN-GJS-500-7|EN-GJS-500-7|GGG-50||Seiltrommeln, Bremsteile, Zylinderköpfe||Metal||||170000 MPa|500|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.705||66000|EN 1563|||||||||||1.10E-005||2||||||320 -Steel-EN-GJS-600-3|EN-GJS-600-3|GGG-60||Kurbelwellen, Stangen||Metal||||177000 MPa|600|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.706||67000|EN 1563|||||||||||1.10E-005||2||||||370 -Steel-EN-GJS-700-2|EN-GJS-700-2|GGG-70||Kurbelwellen, Zahnräder, Turbinenschaufeln||Metal||||180000 MPa|700|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.707||67000|EN 1563|||||||||||1.10E-005||2||||||420 -Steel-EN-GJS-800-1|EN-GJS-800-1|GGG-80||Zahnräder||Metal||||180000 MPa|800|0.3||||7200 kg/m^3||||||||||Cast iron|Guss|0.708||67000|EN 1563|||||||||||1.10E-005||2||||||480 -Steel-G16Mn5|G16Mn5|GS-16Mn5N||Gehäuse, Zahnräder, Bremsscheiben||Metal||||210000 MPa|430|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.1131||81000|DIN 1681|||||||||||1.10E-005||0||||||260 -Steel-G200|G200|GS 38||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal||||210000 MPa|380|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.042||81000|DIN 1681|||||||||||1.10E-005||25||||||200 -Steel-G20Mn5|G20Mn5|GS-20Mn5v||Gehäuse, Zahnräder, Bremsscheiben||Metal||||210000 MPa|500|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.112||81000|DIN 1681|||||||||||1.10E-005||0||||||360 -Steel-G230|G230|GS 45||mittlere dynamische und stoßartige Belastung, gut schweißbar||Metal||||210000 MPa|450|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0446||81000|DIN 1681|||||||||||1.10E-005||22||||||230 -Steel-G260|G260|GS 52||||Metal||||210000 MPa|520|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0552||81000|DIN 1681|||||||||||1.10E-005||18||||||260 -Steel-G300|G300|GS 60||||Metal||||210000 MPa|600|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.0558||81000|DIN 1681|||||||||||1.10E-005||15||||||300 -Steel-G30Mn5|G30Mn5|GS-30Mn5||||Metal||||210000 MPa|520|0.3||||7800 kg/m^3||||||||||Cast steel|Stahlguss|1.1165||81000|DIN 17205|||||||||||1.10E-005||14||||||400 +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||81000|EN 10084|||||||||||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||81000|EN 10084|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10084|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10084|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10084|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||0.000011 m/m/K||14||||||500 MPa +Steel-C10|[DE]C10|C10||||Metal||||210000 MPa|650 MPa|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0301||81000|DIN 17210|||||||||||0.000011 m/m/K||16||||||380 MPa +Steel-C15|[DE]C15|C15||||Metal||||210000 MPa|750 MPa|0.3||||7800 kg/m^3||||||||||Case-hardened steel|Einsatzstahl|1.0401||81000|DIN 17210|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10083-1|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||34000|EN 1561|||||||||||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||37000|EN 1561|||||||||||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||40000|EN 1561|||||||||||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||44000|EN 1561|||||||||||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||48000|EN 1561|||||||||||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||52000|EN 1561|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||67000|EN 1562|||||||||||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||65000|EN 1563|||||||||||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||66000|EN 1563|||||||||||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||67000|EN 1563|||||||||||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||67000|EN 1563|||||||||||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||67000|EN 1563|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 1681|||||||||||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||81000|DIN 17205|||||||||||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||http://en.wikipedia.org/wiki/Steel|1.5 Euro/Kg|200000 MPa||0.3||||7900 kg/m^3||||||||||||||||||||500 J/kg/K|||||50 W/m/K|0.000012 m/m/K|||||||| -Steel-S185|S185|St33||für geringe Beanspruchung||Metal||||210000 MPa|310|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0035||81000|EN 10025|||||||||||1.10E-005||18||||||190 -Steel-S235JO|S235JO|St37-3U||||Metal||||210000 MPa|360|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0114||81000|EN 10025|||||||||||1.10E-005||26||||||235 -Steel-S235JR|S235JR|St37-2||üblich für mäßige Beanspruchung, gut schweißbar, nicht für Hilfsrahmen||Metal||||210000 MPa|360|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0037||81000|EN 10025|||||||||||1.10E-005||26||||||235 -Steel-S235JRG1|S235JRG1|USt37-2||üblich für mäßige Beanspruchung||Metal||||210000 MPa|360|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0036||81000|EN 10025|||||||||||1.10E-005||26||||||235 -Steel-S260NC|S260NC|QStE260 N||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal||||210000 MPa|350|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0971||81000|SEW 092|||||||||||1.10E-005||30||||||280 -Steel-S275JO|S275JO|St44-3U||||Metal||||210000 MPa|430|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0143||81000|EN 10025|||||||||||1.10E-005||22||||||275 -Steel-S275JR|S275JR|St44-2||Wellen, Achsen, gut bearbeitbar, gut schweißbar||Metal||||210000 MPa|430|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0044||81000|EN 10025|||||||||||1.10E-005||22||||||275 -Steel-S275N|S275N|St E 275||||Metal||||210000 MPa|370|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.049||81000|EN 10113-2|||||||||||1.10E-005||24||||||275 -Steel-S335JO|S335JO|St60-2U||||Metal||||210000 MPa|510|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0553||81000|EN 10025|||||||||||1.10E-005||22||||||355 -Steel-S335JR|S335JR|St53-3||||Metal||||210000 MPa|510|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0045||81000|EN 10025|||||||||||1.10E-005||22||||||355 -Steel-S335N|S335N|St E 355||||Metal||||210000 MPa|470|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0545||81000|EN 10113-2|||||||||||1.10E-005||22||||||355 -Steel-S340MC|S340MC|QStE340 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen, nicht für Punktlasten||Metal||||210000 MPa|480|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0974||81000|SEW 092|||||||||||1.10E-005||25||||||340 -Steel-S355J2G3|S355J2G3|St52-3||||Metal||||210000 MPa|510|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.057||81000|EN 10025|||||||||||1.10E-005||22||||||355 -Steel-S380MC|S380MC|QStE380 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|520|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0978||81000|SEW 092|||||||||||1.10E-005||23||||||380 -Steel-S420MC|S420MC|QStE420 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|550|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.098||81000|EN 10149|||||||||||1.10E-005||21||||||420 -Steel-S420N|S420N|St E 420||||Metal||||210000 MPa|520|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8902||81000|EN 10113-2|||||||||||1.10E-005||19||||||420 -Steel-S460MC|S460MC|QStE460 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|590|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0982||81000|SEW 092|||||||||||1.10E-005||19||||||460 -Steel-S460N|S460N|St E 460||||Metal||||210000 MPa|550|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8901||81000|EN 10113-2|||||||||||1.10E-005||17||||||460 -Steel-S500MC|S500MC|QStE500 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|620|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0984||81000|EN 10149|||||||||||1.10E-005||17||||||500 -Steel-S550MC|S550MC|QStE550 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|680|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0986||81000|SEW 092|||||||||||1.10E-005||15||||||550 -Steel-S690MC|S690MC|QStE690 TM||gut biegbar, Fahrgestellrahmen, Hilfsrahmen||Metal||||210000 MPa|790|0.3||||7800 kg/m^3||||||||||Cold forming steel|Kaltumformstahl|1.0966||81000|SEW 092|||||||||||1.10E-005||15||||||690 -Steel-St-37-2K|[DE]St 37-2K|St 37-2K||mäßige Beanspruchung||Metal||||210000 MPa|460|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0161||81000|EN 10025|||||||||||1.10E-005||0||||||320 -Steel-St-E-255|[DE]St E 255|St E 255||||Metal||||210000 MPa|360|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0461||81000|DIN 17102|||||||||||1.10E-005||0||||||260 -Steel-St-E-315|[DE]St E 315|St E 315||||Metal||||210000 MPa|440|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0505||81000|DIN 17102|||||||||||1.10E-005||0||||||320 -Steel-St-E-380|[DE]St E 380|St E 380||||Metal||||210000 MPa|500|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.89||81000|DIN 17102|||||||||||1.10E-005||0||||||380 -Steel-St-E-460|[DE]St E 460|St E 460||||Metal||||210000 MPa|560|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8905||81000|DIN 17102|||||||||||1.10E-005||0||||||460 -Steel-St-E-500|[DE]St E 500|St E 500||||Metal||||210000 MPa|610|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8907||81000|DIN 17102|||||||||||1.10E-005||0||||||500 -Steel-X2CrNiMoN17-13-3|X2CrNiMoN17-13-3|X2CrNiMoN 17 13 3||schlecht spanbar, gut schweißbar, gut kaltumformbar, Achsen, Wellen, Wärmetauscher||Metal||||200000 MPa|580|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4429||81000|EN 10088|||||||||||1.10E-005||35||||||295 -Steel-X2CrNiN24-4|X2CrNiN24-4|-||||Metal||||200000 MPa|600|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4362||81000|EN 10088|||||||||||1.10E-005||25||||||400 -Steel-X39CrMo17-1|X39CrMo17-1|-||||Metal||||213000 MPa|750|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4122||81000|EN 10088|||||||||||1.10E-005||12||||||500 -Steel-X3CrNiMo13-14|X3CrNiMo13-14|-||||Metal||||216000 MPa|900|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4313||81000|EN 10088|||||||||||1.10E-005||11||||||800 -Steel-X5CrNi18-10|X5CrNi18-10|X5CrNi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Fahrzeugbau, Lebensmitteltechnik||Metal||||200000 MPa|520|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4301||81000|EN 10088|||||||||||1.10E-005||40||||||210 -Steel-X5CrNiMo17-12-2|X5CrNiMo17-12-2|X5CrNiMo 17 12 2||schlecht spanbar, gut schweißbar, gut kaltumformbar, Lebensmitteltechnik||Metal||||180000 MPa|520|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4401||68000|EN 10088|||||||||||1.10E-005||40||||||220 -Steel-X6CrNiTi18-10|X6CrNiTi18-10|X10CrNiTi 18 9||schlecht spanbar, gut schweißbar, gut kaltumformbar, Schienenfahrzeugbau||Metal||||200000 MPa|500|0.3||||7800 kg/m^3||||||||||Stainless steel|Niro|1.4541||81000|EN 10088|||||||||||1.10E-005||40||||||200 +Steel-S185|S185|St33||für geringe Beanspruchung||Metal||||210000 MPa|310 MPa|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0035||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|SEW 092|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10113-2|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10025|||||||||||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||81000|EN 10113-2|||||||||||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||81000|SEW 092|||||||||||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||81000|EN 10025|||||||||||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||81000|SEW 092|||||||||||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||81000|EN 10149|||||||||||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||81000|EN 10113-2|||||||||||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||81000|SEW 092|||||||||||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||81000|EN 10113-2|||||||||||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||81000|EN 10149|||||||||||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||81000|SEW 092|||||||||||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||81000|SEW 092|||||||||||0.000011 m/m/K||15||||||690 MPa +Steel-St-37-2K|[DE]St 37-2K|St 37-2K||mäßige Beanspruchung||Metal||||210000 MPa|460 MPa|0.3||||7800 kg/m^3||||||||||Mild steel|Baustahl|1.0161||81000|EN 10025|||||||||||0.000011 m/m/K||0||||||320 MPa +Steel-St-E-255|[DE]St E 255|St E 255||||Metal||||210000 MPa|360 MPa|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0461||81000|DIN 17102|||||||||||0.000011 m/m/K||0||||||260 MPa +Steel-St-E-315|[DE]St E 315|St E 315||||Metal||||210000 MPa|440 MPa|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.0505||81000|DIN 17102|||||||||||0.000011 m/m/K||0||||||320 MPa +Steel-St-E-380|[DE]St E 380|St E 380||||Metal||||210000 MPa|500 MPa|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.89||81000|DIN 17102|||||||||||0.000011 m/m/K||0||||||380 MPa +Steel-St-E-460|[DE]St E 460|St E 460||||Metal||||210000 MPa|560 MPa|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8905||81000|DIN 17102|||||||||||0.000011 m/m/K||0||||||460 MPa +Steel-St-E-500|[DE]St E 500|St E 500||||Metal||||210000 MPa|610 MPa|0.3||||7800 kg/m^3||||||||||Fine grain steel|Feinkornstahl|1.8907||81000|DIN 17102|||||||||||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||81000|EN 10088|||||||||||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||81000|EN 10088|||||||||||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||81000|EN 10088|||||||||||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||81000|EN 10088|||||||||||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||81000|EN 10088|||||||||||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||68000|EN 10088|||||||||||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||81000|EN 10088|||||||||||0.000011 m/m/K||40||||||200 MPa Wood-Generic|Wood||A standard construction wood|||Aggregate||http://en.wikipedia.org/wiki/Wood||12000 MPa||0.05||||700 kg/m^3|||||||||||||||||||||||||||||||||| diff --git a/src/Mod/Material/StandardMaterial/Tools/Materials.ods b/src/Mod/Material/StandardMaterial/Tools/Materials.ods index 3be6885937..da20e93c0b 100644 Binary files a/src/Mod/Material/StandardMaterial/Tools/Materials.ods and b/src/Mod/Material/StandardMaterial/Tools/Materials.ods differ