1. Supply Range for H13 Die Steel
H13 Steel Round Bar: diameter 8mm – 400mm
H13 Steel Plate: thickness 16mm –500mm x width 200mm – 800mm
H13 Steel Slab: 200mm x 500-800mm
Surface Finish: Black, Rough Machined, Turned or as per given requirements.
2. Forging of H13 Tool Steel 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. H-13 should always be annealed after forging.
3. Heat Treatment for H13 Tool Steels
- Annealing
Heat slowly to 1550°-1650°F, hold until entire mass is heated through, and cool slowly in the furnace (40F per hour) to about 1000°F, after which cooling rate may be increased. Suitable precautions must be taken to prevent excessive carburization or decarburization.
- Stress Relieving
When desirable to relieve the strains of machining, heat slowly to 1050°-1250°F, allow to equalize, and then cool in still air (Strain Relieving).
- Preheat Prior to Hardening
Warm slightly before charging into the preheat furnace, which should be operating at 1400°-1500°F.
- Hardening
H13 tool steel is a steel having very high hardenability and should be hardened by cooling in still air. The use of a salt bath or controlled atmosphere furnace is desirable to minimize decarburization, and if not available, pack hardening in spent pitch coke is suggested. The temperature employed is usually 1800°-1850°F, depending on size section.
- Quenching
Quench in still air or dry air blast. If complicated forms are to be hardened, an interrupted oil quench can be used. Quench part in oil and remove from bath when it just loses its color (1000°-1100°F). Finish cooling to below 150°-125°F in air, then temper immediately.
- Tempering
Tempering practice may vary with size and application, but is usually performed in the range of maximum secondary hardness or higher. Double tempering is recommended. The results below is H13 that was air quenched from 1800°F and tempered for 4 hours at various temperatures. The results may be used as a guide, keeping in mind that parts of heavy section or mass may be several points lower in hardness.
Chemical Composition
The following table shows the chemical composition of H13 tool steels.
Element | Content (%) |
---|---|
Chromium, Cr | 4.75-5.50 |
Molybdenum, Mo | 1.10-1.75 |
Silicon, Si | 0.80-1.20 |
Vanadium, V | 0.80-1.20 |
Carbon, C | 0.32-0.45 |
Nickel, Ni | 0.3 |
Copper, Cu | 0.25 |
Manganese, Mn | 0.20-0.50 |
Phosphorus, P | 0.03 |
Sulfur, S | 0.03 |
Physical Properties
The physical properties of H13 tool steels are given in the following table.
Properties | Metric | Imperial |
---|---|---|
Density (@20°C/68°F) | 7.80 g/cm3 | 0.282 lb/in3 |
Melting point | 1427°C | 2600°F |
Mechanical Properties
The mechanical properties of H13 tool steels are tabulated below.
Properties | Metric | Imperial |
---|---|---|
Tensile strength, ultimate (@20°C/68°F, varies with heat treatment) | 1200 – 1590 MPa | 174000 – 231000 psi |
Tensile strength, yield (@20°C/68°F, varies with heat treatment) | 1000 – 1380 MPa | 145000 – 200000 psi |
Reduction of area (@20°C/68°F) | 50.00% | 50.00% |
Modulus of elasticity (@20°C/68°F) | 215 GPa | 31200 ksi |
Poisson’s ratio | 0.27-0.30 | 0.27-0.30 |
Thermal Properties
The following table shows the thermal properties of H13 tool steels.
Properties | Conditions | ||
---|---|---|---|
T (ºC) | Treatment | ||
Thermal expansion | 10.4 x 10-6/ºC | 20-100 | – |
Thermal conductivity | 28.6 W/mK | 215 | – |