EN 10327 Grade DX51D cold rolled

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The alloyed high-grade steel DX51D (machine folding quality) is deliverable with following hot-dip coatings: DX51D+Z (coating Zn), DX51D+ZF (coating Zn-Fe), DX51D+ZA (coating Zn-Al), DX51D+AZ (coating Al-Zn), DX51D+AS (coating Al-Si). The coating mass for Z amounts to 100, 140, 200, (225), 275, 350*, (450)* and (600)* g/m², for ZF to 100, 120 and (140)** g/m², for ZA to 95, 130, 185, 200, 255 and 300* g/m², for AZ to 100, 150 and 185 g/m², for AS it amounts to 60, 80, 100, (120) und (150) g/m². The parenthesis values are deliverable after arrangement the values are in each case both side minimum values (three-faced specimen). The * marked values are not deliverable for the surface types B and C and the ** marked values are not deliverable for the surface type C (see also DIN EN 10327). The advantages in opposite to the hot-dip galvanising are: - higher corrosion resistance - excellent forming behaviour - low crack susceptibility of the coating The material is used for construction parts with good cold formability and high corrosion resistance. The coated steel is weldable with the usual methods. Furthermore are given the adhesive suitability and the coatability with organic materials, in each case after a previous suitable surface treatment. Application: household appliances industry, construction industry, furniture industry, electrical engineering, automotive engineering

Related Standards

Equivalent Materials

This material data has been provided by WIAM.

"Typical" values were obtained via a literature search. "Predicted" values were imputed via artificial intelligence technology. While we have placed significant efforts in ensuring data accuracy, "typical" and "predicted" data should be considered indicative and verified by appropriate material testing. Please do contact us if additional information on the the predicted data method is required.
All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

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23.0 °C

7.8 - 7.9 g/cm³

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Typical for Low Carbon Steel



Elastic modulus

23.0 °C

200 - 215 GPa

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Typical for Low Carbon Steel

Elongation A80, transverse

20.0 °C

22 %

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Poisson's ratio

23.0 °C

0.29 [-]

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Typical for Low Carbon Steel

Shear modulus

23.0 °C

82 GPa

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Typical for Low Carbon Steel

Tensile strength, transverse

20.0 °C

270 - 500 MPa

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Coefficient of thermal expansion

23.0 °C

1.32E-5 - 1.38E-5 1/K

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Typical for Low Carbon Steel

Max service temperature

500 °C

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Typical for Carbon Steel

Melting point

1480 - 1526 °C

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Typical for Low Carbon Steel

Specific heat capacity

23.0 °C

465 J/(kg·K)

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Typical for Low Carbon Steel

Thermal conductivity

23.0 °C

25 - 93 W/(m·K)

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Typical for Low Carbon Steel



Electrical resistivity

23.0 °C

1.43E-7 - 1.74E-7 Ω·m

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Typical for Carbon Steel



Curie temperature

770 °C

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Typical for Low Carbon Steel

Chemical properties



0.12 %

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0.6 %

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0.1 %

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0.5 %

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0.045 %

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0.3 %

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