GH1040
GH1040 Chemical composition:
Fe | Cr | Ni | Mo | Si | Mn | N | C | P | S | Cu | |
Min | Bal | 15 | 24 | 5.5 | 0.5 | 1 | 0.1 | ≤ | |||
Max | 17.5 | 27 | 7 | 1 | 2 | 0.2 | 0.12 | 0.03 | 0.02 | 0.2 |
GH1040 Physical properties:
Density | 8.08g/cm³ |
Thermal conductivity
θ/℃ | 100 | 200 | 300 | 400 | 500 |
α/[W/(m·℃)] | 12.6 | 14.7 | 16.3 | 18.4 | 20.1 |
θ/℃ | 600 | 700 | 800 | 900 | —— |
α/[W/(m·℃)] | 22.2 | 23.9 | 26.0 | 27.6 |
Resistivity
θ/℃ | 25 | 100 | 200 | 300 | 400 |
p/(10-⁵Ω·m) | 0.905 | 0.974 | 1.01 | 1.06 | 1.10 |
θ/℃ | 500 | 600 | 700 | 800 | |
p/(10-Ω·m) | 1.13 | 1.15 | 1.1 | 1.20 |
Coefficient of linear expansion
θ/℃ | α/(10~6℃-I) | θ/℃ | α/(10-6℃-I) |
20~100 | 14.4 | 20~800 | 18.2 |
20~200 | 15.5 | 20~900 | 18.5 |
20~300 | 16.1 | 100~200 | 15.4 |
20~400 | 16.5 | 200~300 | 16.5 |
20~500 | 17.0 | 300~400 | 17.6 |
20~600 | 17.4 | 400~500 | 18.2 |
20~700 | 17.8 | —— |
GH1040 Mechanical properties:
Sandard | Variety | Heat treatment | θ/℃ | Tensile properties | hardness | Long-lasting performance | |||
σb/MPa | σp0.2/MPa | δ₅/% | ψ/% | HB | σ100 /MPa | ||||
GB/T 14994 GJB 2611A | Cold-drawn rods | 1200℃×1h/AC +700℃×16h/AC | 800 | ≥295 | |||||
Rods |
800℃×5h/AC | 20 | ≥255 | ||||||
1180℃×2h/WQ +700℃×5h/AC | 700 |
— |
— |
175 | |||||
Disc forgings |
750℃Warm processing intensification
10%~15% +650℃×4h/AC |
20 | 820 | 620 | 12 | — | 321~241 | — | |
700 | — | — | — | — | — | 196 | |||
815 | 315 | — | — | — | — |
GH1040 Alloy properties:
GH1040 alloy is a carbide-strengthened material, and the carbide between the cast dendrites is not easy to break during forging, and there will be obvious dendritic structure left on the disc forging.
GH1040 Uses of alloys:
GH1040 alloy is used in the manufacture of welded rotors, shafts and fasteners for gas turbines, as well as short-working rocket engine parts. After the alloy is strengthened by temperature processing, it can be used to make turbine disks that operate below 650°C.
GH1040 Process performance:
Welding process: Hua Nickel GH1040 alloy has excellent weldability and can be reliably welded with other materials. It can obtain high-quality welded joints through common welding methods such as arc welding, argon arc welding, and electron beam welding. This opens up a wide range of possibilities for the application of GH104 alloy in assembly and manufacturing.
Heat treatment: Heat treatment of the machined Hua Nickel GH1040 alloy is carried out to improve the mechanical properties and structural stability of the material. Common heat treatment methods include solution treatment and aging treatment.
Relevant standards:
GB/T14992 、GB/T14994、GJB 2611A 、GJB 2612A 、YB/T 5247