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S460MC | 1.0982 Material Datasheet

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Material Description

Material Number Material Number (single) Standard Scope Standard Status Country Predecessor Successor VDA 231-106 classification Application temperature [°C]
1.0982 (DIN EN 10149-2 : 1995-11) 1.0982 DIN EN 10149-2 : 1995-11 DIN EN 10149-2 : 1995-11 replaced by DIN EN 10149-2 : 2013-12 Replaced Germany QStE 460 TM S460MC 1.1 ≥ -20 1)
1) Remark: The thermomechanical rolled steel S460MC, mat. no. 1.0982, is used for cold formed components like vehicle frames, axles and special sections. Tempering > 580 deg. leads to an decrease of the strength of the thermomechanical treated material. The lowest application temperature amounts to - 20 deg. At this temperature the proof of the notch impact energy of min. 40 J can be agreed. The min. bending mandrel diameter for the 180°-bending test (transversal specimen) amounts to 1*t (t=specimen thickness).

Chemical Composition

Al [%] C [%] Mn [%] Nb [%] P [%] S [%] Si [%] Ti [%] V [%] Nb+V+Ti [%]
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Mechanical Properties

Semi-finished Product Condition Nominal Size [mm] Temperature [°C] Specimen Direction Tensile Strength [MPa] Yield Strength [MPa] Elongation A [%] Elongation A80 [%]
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Physical Properties

Temperature [°C] Density [g/cm³] Young's Modulus [GPa] Mean Coefficient of Thermal Expansion (reference 20°C) [10^-6*K^-1] Differential Coefficient of Thermal Expansion [10^-6*K^-1] Thermal Conductivity [W/(m*K)] Thermal Diffusivity [10^-6 m²/s] Specific Electrical Resistance [µΩm] Mean Specific Heat Capacity [kJ/(kg*K)] True Specific Heat Capacity [kJ/(kg*K)]
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Toughness Data (Impact)

Semi-finished Product Condition Temperature [°C] Specimen Shape Specimen Direction Notch Impact Energy [J]
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Cross Reference

Material Name Country Standard
FeE460 International ISO 6930-1
HSLAS-F70 USA ASTM A 1011
QStE 460 TM Germany SEW 092

Producer/Supplier/Trade names

Tradename Supplier
(PERFORM 460 TM) ThyssenKrupp Steel Europe AG, Duisburg
(Union Q 460 TM) ThyssenKrupp Steel Europe AG, Duisburg
Alform 57 W voestalpine AG, Linz
BSK 46 Georgsmarienhütte GmbH, Georgsmarienhütte
HSM 460 Hoesch Hohenlimburg GmbH, Hagen
PAS 460 ThyssenKrupp Steel Europe AG, Duisburg
PSQ 46 Salzgitter Flachstahl GmbH, Salzgitter
QStE 460 TM AG der Dillinger Hüttenwerke, Dillingen
QStE 460 TM Carl Spaeter GmbH, Oberhausen
QStE 460 TM Klöckner Stahl- und Metallhandel GmbH, Bremen
S460MC ArcelorMittal Commercial Germany, Cologne
S460MC Buderus Edelstahl GmbH, Wetzlar

Material Compliance

REACh RoHS
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Linear-elastic

Temperature [°C] Young's modulus [GPa] Bulk modulus [GPa] Shear modulus [GPa] Poisson's ratio
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Alternating stress

Temperature [°C] Stress ratio Mean stress [MPa] Alternating stress [MPa] Cycles
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Yield strength

Temperature [°C] 0.1% Proof strength [MPa] 0.2% Proof strength [MPa] Yield strength [MPa]
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Electrical resistivity

Temperature [°C] Specific electrical resistance [µΩm]
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Coefficient thermal expansion

Related Temperature [°C] Temperature [°C] Coefficient thermal expansion [10^-6*K^-1]
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Specific heat

Temperature [°C] Specific heat [kJ/(kg*K)]
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Density

Temperature [°C] Density [g/cm³]
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Tensile strength

Temperature [°C] Tensile strength [MPa]
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Thermal conductivity

Temperature [°C] Thermal conductivity [W/(m*K)]
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Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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Designation

Designation Material number Source
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Yield strength

Temperature [°C] 0.1% Proof strength [MPa] 0.2% Proof strength [MPa] Yield strength [MPa]
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Tensile strength

Temperature [°C] Tensile strength [MPa]
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Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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Yield strength

Temperature [°C] 0.1% Proof strength [MPa] 0.2% Proof strength [MPa] Yield strength [MPa]
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Tensile strength

Temperature [°C] Tensile strength [MPa]
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Classification

WIAM Material Treatment Semi-finished product Dimension [mm] Load type Failure criteria Rolling direction Maximum stress [MPa] Strain at maximum stress [%] Source description
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