Material: mat cards, add some units to all cards where missing
This commit is contained in:
Bernd Hahnebach
committed by
Yorik van Havre
Yorik van Havre
parent
be154a21d4
commit
e3cea848f5
@@ -8,7 +8,7 @@ Name = [DE]AlMg3F24
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NameDE = AlMg3F24
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Father = Metal
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YoungsModulus = 70000 MPa
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UltimateTensileStrength = 250
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UltimateTensileStrength = 250 MPa
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PoissonRatio = 0.3
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Density = 2700 kg/m^3
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KindOfMaterial = Aluminium
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium
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MaterialNumber = 3.3535.26
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ModulusOfShare = 27000
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Norm = DIN 1725
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ThermalExpansionCoefficient = 2.30E-005
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ThermalExpansionCoefficient = 0.000023 m/m/K
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UltimateStrain = 5
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YieldStrength = 180
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YieldStrength = 180 MPa
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@@ -8,7 +8,7 @@ Name = [DE]AlMgSi1F31
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NameDE = AlMgSi1F31
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Father = Metal
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YoungsModulus = 70000 MPa
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UltimateTensileStrength = 310
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UltimateTensileStrength = 310 MPa
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PoissonRatio = 0.3
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Density = 2700 kg/m^3
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KindOfMaterial = Aluminium
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium
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MaterialNumber = 3.2315.72
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ModulusOfShare = 27000
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Norm = DIN 1725
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ThermalExpansionCoefficient = 2.30E-005
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ThermalExpansionCoefficient = 0.000023 m/m/K
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UltimateStrain = 10
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YieldStrength = 260
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YieldStrength = 260 MPa
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Aluminium
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MaterialNumber = 3.4335.71
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ModulusOfShare = 27000
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Norm = DIN 1725
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ThermalExpansionCoefficient = 2.30E-005
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ThermalExpansionCoefficient = 0.000023 m/m/K
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UltimateStrain = 10
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YieldStrength = 290
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YieldStrength = 290 MPa
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@@ -12,4 +12,4 @@ PoissonRatio = 0.3
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Density = 7900 kg/m^3
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SpecificHeat = 590 J/kg/K
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ThermalConductivity = 43 W/m/K
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ThermalExpansionCoefficient = 12 um/m/K
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ThermalExpansionCoefficient = 0.000012 m/m/K
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@@ -13,4 +13,4 @@ ProductURL = https://en.wikipedia.org/wiki/Soda-lime_glass
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YoungsModulus = 72000 MPa
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PoissonRatio = 0.22
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Density = 2520 kg/m^3
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ThermalExpansionCoefficient = 9.00E-006
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ThermalExpansionCoefficient = 0.000009 m/m/K
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@@ -10,7 +10,7 @@ DescriptionDE = höchste Beanspruchung, Achsen, Wellen, Ritzel, Nocken, Kegelrä
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DescriptionPL = Wysokowytrzymała stal węglowa
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1000
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UltimateTensileStrength = 1000 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -18,6 +18,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.5919
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ModulusOfShare = 81000
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Norm = EN 10084
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 9
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YieldStrength = 680
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YieldStrength = 680 MPa
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@@ -9,7 +9,7 @@ NameDE = 17CrNiMo6
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1150
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UltimateTensileStrength = 1150 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.6587
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ModulusOfShare = 81000
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Norm = EN 10084
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 8
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YieldStrength = 830
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YieldStrength = 830 MPa
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@@ -11,7 +11,7 @@ DescriptionDE = kleiner Vergütungsdurchmesser, gut schweißbar
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DescriptionPL = Stal stopowa do nawęglania
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 400
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UltimateTensileStrength = 400 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -19,6 +19,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.0402
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 27
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YieldStrength = 230
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YieldStrength = 230 MPa
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@@ -10,7 +10,7 @@ Description = Non-alloy quality steel
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DescriptionPL = Wysokogatunkowa stal niestopowa
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 480
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UltimateTensileStrength = 480 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.0501
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 21
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YieldStrength = 300
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YieldStrength = 300 MPa
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@@ -10,7 +10,7 @@ Description = Non-alloy quality steel
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DescriptionPL = Wysokogatunkowa stal niestopowa
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 580
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UltimateTensileStrength = 580 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.0503
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 14
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YieldStrength = 340
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YieldStrength = 340 MPa
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@@ -10,7 +10,7 @@ Description = Non-alloy quality steel
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DescriptionPL = Wysokogatunkowa stal niestopowa
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 650
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UltimateTensileStrength = 650 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -18,6 +18,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.0601
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 11
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YieldStrength = 380
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YieldStrength = 380 MPa
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@@ -9,7 +9,7 @@ NameDE = 21NiCrMo2
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 900
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UltimateTensileStrength = 900 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.6523
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ModulusOfShare = 81000
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Norm = EN 10084
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 10
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YieldStrength = 630
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YieldStrength = 630 MPa
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@@ -8,7 +8,7 @@ Name = 28Mn6
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NameDE = 28Mn6
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 800
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UltimateTensileStrength = 800 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.117
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 13
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YieldStrength = 590
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YieldStrength = 590 MPa
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@@ -8,7 +8,7 @@ Name = 2C10
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NameDE = Ck10
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 640
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UltimateTensileStrength = 640 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.1121
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ModulusOfShare = 81000
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Norm = EN 10084
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 0
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YieldStrength = 390
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YieldStrength = 390 MPa
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@@ -9,7 +9,7 @@ NameDE = 30CrNiMo8
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1250
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UltimateTensileStrength = 1250 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.658
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 9
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YieldStrength = 1050
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YieldStrength = 1050 MPa
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@@ -9,7 +9,7 @@ NameDE = 34CrNiMo6
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1200
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UltimateTensileStrength = 1200 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.6582
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 9
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YieldStrength = 1000
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YieldStrength = 1000 MPa
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@@ -9,7 +9,7 @@ NameDE = 36CrNiMo4
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1100
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UltimateTensileStrength = 1100 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.6511
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 10
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YieldStrength = 900
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YieldStrength = 900 MPa
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@@ -9,7 +9,7 @@ NameDE = 36NiCrMo16
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DescriptionDE = höchste Beanspruchung, Wellen, Zahnräder
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 1250
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UltimateTensileStrength = 1250 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -17,6 +17,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.6773
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 9
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YieldStrength = 1050
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YieldStrength = 1050 MPa
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@@ -8,7 +8,7 @@ Name = 3C15
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NameDE = Cm15
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 740
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UltimateTensileStrength = 740 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.114
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ModulusOfShare = 81000
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Norm = EN 10084
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 0
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YieldStrength = 440
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YieldStrength = 440 MPa
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@@ -8,7 +8,7 @@ Name = 3C22
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NameDE = Cm22
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 550
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UltimateTensileStrength = 550 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.1149
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 24
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YieldStrength = 350
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YieldStrength = 350 MPa
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@@ -8,7 +8,7 @@ Name = 3C35
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NameDE = Cm35
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 630
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UltimateTensileStrength = 630 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.118
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 17
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YieldStrength = 430
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YieldStrength = 430 MPa
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@@ -8,7 +8,7 @@ Name = 3V45
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NameDE = Cm45
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 700
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UltimateTensileStrength = 700 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.1201
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 14
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YieldStrength = 500
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YieldStrength = 500 MPa
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@@ -8,7 +8,7 @@ Name = [DE]C10
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NameDE = C10
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 650
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UltimateTensileStrength = 650 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.0301
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ModulusOfShare = 81000
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Norm = DIN 17210
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 16
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YieldStrength = 380
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YieldStrength = 380 MPa
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@@ -8,7 +8,7 @@ Name = [DE]C15
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NameDE = C15
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 750
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UltimateTensileStrength = 750 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Case-hardened steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Einsatzstahl
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MaterialNumber = 1.0401
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ModulusOfShare = 81000
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Norm = DIN 17210
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 14
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YieldStrength = 430
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YieldStrength = 430 MPa
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@@ -8,7 +8,7 @@ Name = C22E
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NameDE = Ck22
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Father = Metal
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YoungsModulus = 210000 MPa
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UltimateTensileStrength = 500
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UltimateTensileStrength = 500 MPa
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PoissonRatio = 0.3
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Density = 7800 kg/m^3
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KindOfMaterial = Heat-treatable steel
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@@ -16,6 +16,6 @@ KindOfMaterialDE = Vergütungsstahl
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MaterialNumber = 1.1151
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ModulusOfShare = 81000
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Norm = EN 10083-1
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ThermalExpansionCoefficient = 1.10E-005
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ThermalExpansionCoefficient = 0.000011 m/m/K
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UltimateStrain = 20
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YieldStrength = 340
|
||||
YieldStrength = 340 MPa
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
@@ -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
|
||||
|
||||
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Reference in New Issue
Block a user