GH130
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GH130 Chemical composition:
| Fe | Cr | Ni | W | AI | Ti | C | B | Ce | Si | Mn | S | P | Cu | |
| Min | Bal | 12 | 35 | 5 | 1.4 | 2.4 | ≤ | |||||||
| Max | 16 | 40 | 6.5 | 2.2 | 3.2 | 0.08 | 0.02 | 0.02 | 0.6 | 0.5 | 0.015 | 0.015 | 0.25 | |
GH130 Physical properties:
| Density | 8.20g/cm³ |
| Melting point | 1348℃~1380℃ |
Thermal conductivity
| θ/℃ | 100 | 200 | 300 | 400 | 500 |
| λ/[W/(m·℃)] | 12.1 | 13.8 | 15.1 | 16.3 | 17.6 |
| θ/℃ | 600 | 700 | 800 | 900 | |
| λ/[W/(m·℃)] | 19.3 | 20.9 | 22.6 | 24.3 | — |
Coefficient of linear expansion
| θ/℃ | 20~100 | 20~200 | 20~300 | 20~400 | 20~500 |
| α/(10-6℃-1) | 13.25 | 14.04 | 14.10 | 14.65 | 14.94 |
| θ/℃ | 20~600 | 20~700 | 20~800 | 20~900 | 20~1000 |
| α/(10-6℃-1) | 15.52 | 16.07 | 17.05 | 19.18 | 20.18 |
Resilient performance
| θ/℃ | 20 | 100 | 200 | 300 | 400 | 500 | 600 | 700 | 800 | 900 |
| Ed/GPa | 191 | 184 | 178 | 170 | 162 | 155 | 147 | 140 | 135 | 110 |
| Ed/GPa | 198 | 192 | 184 | 180 | 174 | 168 | 161 | 154 | 143 | 128 |
| G/GPs | 73 | 71 | 67 | 64 | 61 | 57 | 54 | 51 | 49 | 39 |
| μ | 0.30 | 0.31 | 0.31 | 0.32 | 0.32 | 0.33 | 0.34 | 0.35 | 0.35 | 0.38 |
GH130 Mechanical properties:
|
Standard number |
Variety |
Heat treatment | Room temperature hardness HBW | trial
category |
Tensile properties | Long-lasting performance③ | |||||
| θ/℃ | σb/MPa | δ₅/% | ψ/% | 0/℃ | σ/MPa | τ/h | |||||
| ≥ | ≥ | ||||||||||
| GB/T
14993 |
Hot rolled rods | standard
heat treatment |
341~269 |
A① |
800 |
667 |
3 |
8 |
850
(800) |
196
(245) |
40 (100) |
|
B° |
800 |
667 |
4.5 |
8 |
850
(800) |
196
(245) |
50 (100) | ||||
| (1) Category A is a regular supply condition.
(2) Category B is limited to the supply conditions of bars with a diameter of 32 mm for special conditions for aerospace. (3) When the initial test of durable performance is unqualified, the test shall be repeated according to the indicators in parentheses. |
|||||||||||
GH302 Alloy properties:
After fine crystallization process + direct aging treatment, HuaNickel GH130 alloy can be used to produce high yield, high fatigue performance discs and long-life rotor blades at 500°C~700°C. When the service temperature is greater than 700°C, the durability and creep limits of the alloy begin to decrease; After long-term aging, the alloy has Laves phase precipitation, which reduces the impact toughness at room temperature. When the alloy is used at 800°C, the surface can be Al-loaded to improve the oxidation and corrosion resistance.
GH130 Uses of alloys:
GH130 alloy has been used in the manufacture of aero engine working blades, marine turbine supercharged turbines, spacecraft fasteners, etc.
GH130 Process performance:
Surface treatment process: In order to eliminate the residual stress on the surface of the finished parts, argon protection can be used, and the aging can be supplemented by 1000°C±10°C ×(10~15) min/AC+800°C± 10°C×4h/AC. When the alloy is used at 800°C, the surface can be infiltrated to improve the oxidation and corrosion resistance.
Relevant standards:
ASTM B408、AMS 5827、BS HR3、DIN 17742 EN 10095