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1.2344 X40CrMoV5-1
Technical Data
1.2344 X40CrMoV5-1 is an air hardening hot work tool steel which combines a
very good red-hardness with toughness and co
vers a wide variety of applications.1.2344 X40CrMoV5 hot work tool steel can be water cooled in service and offers high temperature strength and wear resistance.
TYPICAL ANALYSIS
C.
Si.
Mn.
Cr.
Mo.
V.
0.38%
1.00%
0.40
5.00%
1.30%
1.00%
Forging:
Heat slowly and uniformly to 700°C. Forge 1.2344 within a range of 1050/1150°C reheating if necessary, since forging must not be carried out below 850°C. Cool slowly, preferably in a furnace since this is an air hardening steel.
Annealing:
Heat uniformly to 750/800°C, soak thoroughly and furnace cool.
Stress Relieving:
After rough machining the 1.2344 components must be stress relieved, heat to 650/700°C and hold for 2 hours then furnace cool.
Hardening:
Pre heat the 1.2344 to 750/850°C and soak thoroughly, then increase rapidly to the hardening temperature of 1000/1030°C in a controlled atmosphere or neutral salt bath. Cool in air.
This steel is suitable for vacuum hardening.
Tempering:
Heat uniformly and thoroughly at the selected tempering temperature, depending on the hardness requirement. Hold for at least two hours per inch of total thickness and cool in air. Double tempering of 1.2344 is strongly recommended.
Tempering °C
400
500
550
600
650
HRc
54
56
54
49
47
Tufftriding:
Tufftriding 1.2344 hot work tool steel is done in a special salt bath at 570°C. Holding time 2 hours. It gives a surface hardness of approximately 950-1000HV.
Nitriding:
Nitriding 1.2344 hot work tool steel gives a hard surface case which is very resistant to wear and erosion and also increases the corrosion resistance. Nitriding in ammoniac gas at 525°C gives a surface hardness of approximately 1000HV 1250HV. Before nitriding, the tool should be hardened and tempered at approximately 50°C above nitriding temperature.
Temperature
Time
Approximate Depth of Case
525°C
10 hours
0.125mm
525°C
20 hours
0.180mm
525°C
40 hours
0.250mm
525°C
60 hours
0.300mm
Welding:
Due to the high risk of crack formation welding of 1.2344 tool steel should be avoided, if possible. When, howe ver welding is essential, the following serves as a guide:
A . Welding of soft annealed 1.2344 X40CrMoV5 tool steel
· Preheat to 300 - 500°C
· Weld at 300-500°C
· Immediately stress relieve at 675-750°C. Soaking time at temperature, 3 hours.
Electrode: Cr-Mo alloy electrode for welding low alloyed steel.
B. Welding in connection with hardening of soft annealed 1.2344 X40CrMoV5 tool steel.
· Heat to austenitizing temperature.
· Cool to approx. 500°C
· Weld at approx. 500°C
· Cool to approx. 100°C in the same way as at normal hardening, then temper to desired hardness.
Electrode: Hard facing electrode.
C. Repair welding of 1.2344 X40CrMoV5 tool steel in hardened and tempered condition.
· Preheat to the tempering temperature (min. 300°C) previously used.
· Weld at tempering temperature. Do not weld below 150°C.
· Reheat immediately to 300°C. Soaking time 3 hours.
· Cool in air to approx. 80°C.
· Reheat immediately to 300°C. Soaking time 3 hours.
Electrode: Hard facing electrode.
Physical Properties: 1.2344 X40CrMoV5
Temperature:
200°C
400°C
600°C
Density (Kg/dm³)
7.75
7.70
7.65
Coefficient of thermal expansion (per °C from 0°C)
11.9 x 10-6
12.4 x 10-6
12.8 x 10-6
Thermal conductivity (cal/cm.s °C)
60.0 x 10-3
62.4 x 10-3
63.6 x 10-3
Modulus of elasticity:
N/mm²
184 000
175 000
154 000