Designation by Standards

1.4125 - X105CrMo17 440C SUS440C 95Ch18

Chemical Composition (in weight %)

C Si Mn Cr Mo Ni V W Others
1.05 0.50 0.50 17.00 0.50 - - - -

This is a high carbon martensitic stainless with moderate corrosion resistance good strength and the ability to obtain and keep excellent hardness HRC 60 and wear resistance.

Ball bearings and races, gage blocks, molds and dies, cutlery, valve components, knives and measuring instruments and other products with highest hardness and wear resistance.

Physical properties (avarage values) at ambient temperature
Modulus of elasticity [103 x N/mm2]: 200
Density [g/cm3]: 7.67
Thermal conductivity [W/m.K]: 24.2
Electric resistivity [Ohm mm2/m]: 0.60
Specific heat capacity[J/g.K]: 0.46

Coefficient of Linear Thermal Expansion 10-6 oC-1

20-100oC 20-200oC 20-300oC 20-400oC 20-500oC 20-600oC 20-700oC
9.8 10.8 11.4 11.7 12.0 12.2 12.4

Soft Annealing
Heat to 820-860oC, cool slowly in furnace. This will produce a maximum Brinell hardness of 269.

Harden from a temperature of 1000-1050oC followed by oil or quenching. Hardness after quenching is min. 58 HRC.

Tempering temperature: See the data bellow.

Tempering Temperature (oC) vs. Hardness (HRC)

100oC 200oC 300oC 400oC 500oC 600oC 600oC
59 57 54 55 55 39 31

Pre-heat to 760oC, then bring slowly up to 1038-1204oC before proceeding. Do not work this material below 927oC. Cool material slowly after working and once at room temperature, anneal fully.

Best machined in the annealed condition. Tough, stringy chips can be best handled by the use of chip breakers. Carbide or ceramic tooling is recommended.

Cold Working
This alloy is considered only slightly cold workable by common practices.

Corrosion Resistance
Resistant to a wide variety of media including fresh water, steam, petroleum products and alcohol. The material is not recommended to be used in annealed condition as it may get rusty. Correct passivation process recommendation to improve the corrosion resistance in quenched and tempered form. HT recommendation to obtain best corrosion resistance. In this case as per the recommendation that is obtained thru low temperature tempering with mirror finished surface. The 440 steel is not recommended to be used in elevated temperature application i.e above 400oC. Corrosion resistance is reduced when used in elevated temperarure condition.

This alloy is not commonly welded due to its tendency to air harden. If it must be welded, preheat to 260oC and post weld treat at 732-760oC for 6 hours followed by a slow furnace cooling to avoid cracking. Use similar filler metal.

All technical information is for reference only.