H10 tool steel is chromium-molybdenum hot work steel that exhibits excellent resistance to softening at elevated temperatures. In this respect, it is superior to the chromium hot work steels. H-10 is capable of being heat treated to a higher hardness than the tungsten hot work steels, and in addition, offers greater toughness. It has good thermal fatigue characteristics, and unlike the tungsten hot work steels, may be safely water cooled in service.
H10 chromium hot work tool steel has excellent resistance to softening at high temperatures. This particular grade is resistant to thermal fatigue cracking and can be cooled in water for servicing.
H10 tool steel Chemical Composition(%)
| C | Si | Mn | P | S | Cr | V | Mo |
| 0.35-0.45 | 0.80-1.25 | 0.20-0.70 | 0.030 max | 0.030 max | 3.00-3.75 | 0.25-0.75 | 2.00-3.00 |
H10 Steel Standard and Relevant Steel Specifications
| Country | USA | German | Japan | British |
| Standard | ASTM A681 | DIN EN ISO 4957 | JIS G4404 | BS 4659 |
| Grades | H10/T20810 | 1.2365/32CrMoV12-28 | SKD7 | BH10 |
H10 tool steel Physical Properties
Critical Properties – (on heating) 1525°F
Specific gravity – 7.80
Coefficient of Thermal Expansion
| 100 – 800°F | 6.78 x 10-6 in/in/°F |
| 100 – 1000°F | 7.41 |
| 100 – 1200°F | 7.65 |
H10 tool steel Mechanical Properties:
Modulus of elasticity207 GPa30000 ksi
| Properties | Metric | Imperial |
| Hardness, Rockwell C (air cooled from 1024°C and double tempered; 649°C temper temperature) | 41 | 41 |
| Hardness, Rockwell C (air cooled from 1024°C and double tempered;149°C temper temperature) | 58 | 58 |
| Machinability (1% carbon steel) | 90.0 – 95.0% | 90.0 – 95.0% |
| Poisson’s ratio | 0.27-0.30 | 0.27-0.30 |
H10 tool steel HEAT TREATMENT
FORGING: Heating for forging must be done slowly and uniformly. Soak through at 1900-2000°F, and reheat as often as necessary, stopping work when the temperature drops below 1650°F. After forging
cool slowly in lime, mica, dry ashes or furnace. H10 hot work tool steel should always be annealed after forging.
ANNEALING: Heat slowly to 1550-1650°F, hold until the entire mass is heated through, and cool slowly in the furnace (40°F per hour) to about 1000°F, after which the cooling rate may be increased. Suitable precautions must be taken to prevent excessive carburization or decarburization.
SRAIN RELIEVING When desirable to relieve the strains of machining, heat slowly to 1050-1250°F, allow to equalize, and then cool in still air.
HARDENING: Warm slightly before charging into the preheat furnace, which should be operating at about 1400-1500°F.
H10 hot work tool steel is very deep hardening steel, and although oil quenching may be used where maximum hardness is required, air-hardening is recommended for most applications. The use of a salt bath or controlled atmosphere furnace is desirable to minimize decarburization, and if not available, pack hardening spent pitch temperature employed Annealing is usually in the range of 1800-1900°F.
TEMPERING: Tempering practice may vary with size and application, but is usually performed in the temperature range of maximum secondary hardness or higher double tempering is recommended.
Applications:
Forging dies for steel, mandrels, dies, die holder bolsters and dummy blocks, punches, die inserts, gripper and header dies, hot shears, aluminum die casting dies.
Contact
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