1.0338 (DC04)

Classification

Country Section Category
Germany Non-alloy Steels Steels with Average C < 0,12% or Rm < 400 MPa

Chemical composition

Standard Fe, % Mn, % P, % C, % S, %
DIN 1624:1987 > 99.46 < 0.4 < 0.03 < 0.08 < 0.03

Information on suppliers

Mechanical properties at 20 °C

Rolling Standard Size, mm Tension Classifiers $$\sigma _{U}$$, $$MPa$$ $$\sigma_{Y}$$, $$MPa$$ $$\epsilon_{L (L_0 = 80 mm)}$$, % $$\epsilon_{L (L_0 = 5.65\sqrt{S_o})}$$, % Treatment
270–350 210–220 37–38
annealing, soft 40

Твёрдость по Викерсу

Rolling Standard Classifiers Value, HV
annealing, soft 95

Properties

Property
According to DIN 1624 Designation processing G note Annealing
According to DIN 1624 Designation processing G Thickness: < 3 mm ; tensile strength: 270 - 350 MPa
According to DIN 1624 Designation processing G Thickness: < 3 mm ; elongation: > 38 %
According to DIN 1624 Designation processing G Thickness: > 3 mm ; tensile strength: 270 - 350 MPa
According to DIN 1624 Designation processing G Thickness: > 3 mm ; elongation: > 40 %
According to DIN 1624 Designation processing LG note Snapping
According to DIN 1624 Designation processing LG Thickness: < 0.7 mm ; yield strength: < 230 MPa
According to DIN 1624 Designation processing LG Thickness: < 0.7 mm ; tensile strength: 270 - 350 MPa
According to DIN 1624 Designation processing LG Thickness: < 0.7 mm ; elongation: > 38 %
According to DIN 1624 Designation processing LG Thickness: 0.7 - 3.0 mm ; yield strength: < 210 MPa
According to DIN 1624 Designation processing LG Thickness: 0.7 - 3.0 mm ; tensile strength: 270 - 350 MPa
According to DIN 1624 Designation processing LG Thickness: 0.7 - 3.0 mm ; elongation: > 38 %
According to DIN 1624 Designation processing LG Thickness: > 3 mm ; yield strength: < 210 MPa
According to DIN 1624 Designation processing LG Thickness: > 3 mm ; tensile strength: 270 - 350 MPa
According to DIN 1624 Designation processing LG Thickness: > 3 mm ; elongation: > 40 %
According to DIN 1624 Designation processing LG By agreement Thickness: > 1.5 mm ; yield Limit: < 225 MPa
According to DIN 1624 Designation processing 32 K note Training
According to DIN 1624 Designation processing 32 K Thickness: < 3 mm ; yield strength: 220 - 325 MPa
According to DIN 1624 Designation processing 32 K Thickness: < 3 mm ; tensile strength: 290 - 390 MPa
According to DIN 1624 Designation processing 32 K Thickness: < 3 mm ; elongation: > 24 %
According to DIN 1624 Designation processing 32 K Thickness: > 3 mm ; yield strength: 220 - 325 MPa
According to DIN 1624 Designation processing 32 K Thickness: > 3 mm ; tensile strength: 290 - 390 MPa
According to DIN 1624 Designation processing 32 K Thickness: > 3 mm ; elongation: > 28 %
According to DIN 1624, the Designation processing 40 K note Training
According to DIN 1624, the Designation processing 40 K Thickness: < 3 mm ; yield strength: > 350 MPa
According to DIN 1624, the Designation processing 40 K Thickness: < 3 mm ; tensile strength: 390 - 490 MPa
According to DIN 1624, the Designation processing 40 K Thickness: < 3 mm ; elongation: > 6 %
According to DIN 1624, the Designation processing 40 K Thickness: > 3 mm ; yield strength: > 350 MPa
According to DIN 1624, the Designation processing 40 K Thickness: > 3 mm ; tensile strength: 390 MPa
According to DIN 1624, the Designation processing 40 K Thickness: > 3 mm ; elongation: > 14 %
According to DIN 1624 Designation processing K 50 note Training
According to DIN 1624 Designation processing K 50 yield strength: > 460 MPa
According to DIN 1624 Designation processing K 50 Temporary resistance: 490 - 590 MPa
According to DIN 1624 Designation processing K 60 note Training
According to DIN 1624 Designation processing K 60 yield strength: > 560 MPa
According to DIN 1624 Designation processing K 60 tensile strength: 590 - 690 MPa

Analogues

CIS, Russia, Ukraine Germany USA
08kp St 13 SA 1008 CS Type A

Standards

Standard Description
EN 10130
EN 10139
EN 10152
DIN 1624:1987
DIN EN 10130:2006
DIN EN 10139:1997
DIN EN 10139:2016
DIN EN 10152:2009
DIN EN 10152:2017

Description of chemical elements

Element Units of measurement Description
Fe % Iron
Mn % Manganese
P % Phosphorus
C % Carbon
S % Sulfur

Description of mechanical properties

Parameter Units of measurement Description
$$\sigma_{Y}$$ $$MPa$$ Yield strength
$$\sigma _{U}$$ $$MPa$$ Ultimate tensile strength
$$\epsilon_{L (L_0 = 80 mm)}$$ % Elongation at break (longitudinal) (for L0 = 80 mm)
$$\epsilon_{L (L_0 = 5.65\sqrt{S_o})}$$ % Elongation at break (longitudinal) (for L0 = 5.65√So)