Compare Plastics, Metals, and More for Construction, Design, and Simulation - Materials Portal

QSt 36-3 | 1.0214 Material Datasheet

Material Standard Values

Unlock Exclusive Materials Data

Gain access to a wealth of materials data by joining our Materials Portal.

Register for Free or Upgrade for Full Access

Material Description

Material Number	Material Name	Material Number (single)	Standard	Scope	Standard Status	Country	Successor	VDA 231-106 classification
1.0214 (DIN 1654-2 : 1989-10)	QSt 36-3	1.0214	DIN 1654-2 : 1989-10	DIN 1654-2 : 1989-10 replaced by DIN EN 10263-2 : 2002-02	Replaced	Germany	C10C	1.1.1	1)
1) Remark: The steel QSt 36-3 can undergo cold extrusion pressing and is suitable for the manufacture of mass-produced parts in general engineering, motor and automobile construction with high demands on the strength, surface condition and exactness of dimensions. Because of its smooth surface and high internal stress in the cold-worked edge zone, the vibration fatigue strength is increased. The parts possess favourable run characteristics and have good resistance to wear (phosphate layer). The fibre texture which is adapted to the construction component avoids damaging notch effects. The steel possesses optimum cold formability in the soft-annealed condition -- melting in fine-grained quality to achieve higher resistance to aging.

Chemical Composition

C [%]	Mn [%]	P [%]	S [%]	Si [%]	Remainder
blur	blur	blur	blur	blur	blur	1)
1) Source: blur

Material Compliance

REACh	RoHS
blur	blur

Mechanical Properties

Semi-finished Product	Condition	Nominal Size [mm]	Temperature [°C]	Specimen Direction	Tensile Strength [MPa]	Yield Strength [MPa]	Elongation A [%]	Reduction of Area [%]
blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	1)2)
1) Source: blur
2) Remark: blur

Physical Properties

Temperature [°C]	Density [g/cm³]	Young's Modulus [GPa]	Poisson's Ratio	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)]
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	1)
blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	blur	2)3)
1) Source: blur
2) Source: blur
3) Remark: blur

Heat Treatment

Heat Treatment	Temperature [°C]
blur	blur	1)2)
1) Source: blur
2) Remark: blur

Cross Reference

Material Name	Country	Standard
A 3 AL	International	ISO 4954-79
CB 10 FF	Italy	UNI 7356
SWRCH 10 A	Japan	JIS G 3507
C10C	Germany	DIN EN 10263-2

Producer/Supplier/Trade names

Tradename	Supplier
QSt 36-3	Hoesch Hohenlimburg GmbH, Hagen
QSt 36-3	ThyssenKrupp Steel Europe AG, Duisburg
QSt 36-3	voestalpine AG, Linz
QSt 36-3	Saarstahl AG, Völklingen
QSt 36-3	Georgsmarienhütte GmbH, Georgsmarienhütte
QSt 36-3	Swiss Steel International GmbH, Düsseldorf
QSt 36-3	SHW AG, Aalen
QSt 36-3	WDI - Westfälische Drahtindustrie GmbH, Hamm
QSt 36-3	ROPA STAHLVERTRIEB GMBH, Bad Bergzabern