DIN 17212 Cf53

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DIN 17212 Cf53

DIN 17212 Cf53 is a low carbon, low alloy steel grade manufactured in accordance with DIN 17212 Cf53 standard, and it is one of the most widely used types of steel in the aut

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DIN 17212 Cf53 Introduce

DIN 17212 Cf53 is one of the few steel grades that provide excellent corrosion resistance and wear protection. The alloy has excellent corrosion resistance and is particularly resistant to both acidic and alkaline environments. Its excellent wear protection is attributed to the high strength and the formation of a thin protective surface layer which prevents the material from corroding or breaking down.

Smelting temperature:1392°C - 1689°C

Application:Flame and Induction Hardening Steels; Quality Specifications

DIN 17212 Cf53 Material Mechanical Properties

Heat treatment can have a significant effect on the mechanical properties of DIN 17212 Cf53 steel. For instance, the yield strength of the steel can be increased by up to 40 percent when it is heat treated and quenched. The tensile strength of DIN 17212 Cf53 steel can be increased by up to 30 percent when it is heat treated and tempered. Additionally, the heat treatment can increase the hardness of the steel by up to 200 HB, depending on the exact conditions used.

The mechanical properties of the DIN 17212 Cf53 steel are as follows:

YieldRp0.2 ≤ 467 (MPa)
TeileRm≤ 968 (MPa)
ImpactKV/Ku14(J)
ElongationA32%
Reduction in cross section on fractureZ31%
As-Heat-Treated ConditionSolution and Aging, Annealing, Ausaging, Q+T,etc
Brinell hardness (HBW)132

DIN 17212 Cf53 Material Thermal Properties

The thermal performance parameters of the DIN 17212 Cf53 steel are as follows:

Temperature (°C)13688414
Modulus of elasticity (GPa)-869-
Mean coefficient of thermal expaion ×10-6/(°C)--43
Thermal conductivity (W/m·°C)-34.321.2
Specific thermal capacity (J/kg·°C)-231-
Specific electrical resistivity (Ω mm²/m)0.41--
Deity (kg/dm³)--443
Poisson’s coefficient, ν--412

DIN 17212 Cf53 Material Machining Technology

A variety of machining processes can be used for shaping and forming DIN 17212 Cf53 steel, from traditional processes such as turning, milling, and drilling, to more modern cutting processes such as laser cutting, plasma cutting, and waterjet cutting. The selection of the cutting process depends on several factors, including the part geometry, cost, and speed of production.