8009 Aluminum Alloy Plate
8009 heat-resistant aluminum alloy is a new type of high-temperature aluminum alloy. Due to the formation of high volume fraction of α-Al12(Fe,V)3Si thermally stable dispersed particles in the alloy
8009 heat-resistant aluminum alloy is a new type of high-temperature aluminum alloy. Due to the formation of high volume fraction of α-Al12(Fe,V)3Si thermally stable dispersed particles in the alloy
8009 heat-resistant aluminum alloy is a new type of high-temperature aluminum alloy. Due to the formation of high volume fraction of α-Al12(Fe,V)3Si thermally stable dispersed particles in the alloy, it has low density, high strength at room temperature, and good thermal stability. , A series of excellent comprehensive properties such as high ductility and fracture toughness. 8009 heat-resistant aluminum alloy has higher high-temperature strength than conventional aluminum alloys. The effective use temperature range of the aluminum alloy has been extended to more than 300°C. Therefore, 8009 aluminum alloy is very hopeful to replace the traditional heat-resistant alloy at 300-400°C. The dominant titanium alloy in China has become the preferred alloy for structural materials in the aerospace and military fields.
Chemical Composition:
| Chemical Elements | Metric | English |
|---|---|---|
| Aluminum, Al | 86.7 - 88.8 % | 86.7 - 88.8 % |
| Chromium, Cr | <= 0.10 % | <= 0.10 % |
| Iron, Fe | 8.4 - 8.9 % | 8.4 - 8.9 % |
| Manganese, Mn | <= 0.10 % | <= 0.10 % |
| Other, each | <= 0.050 % | <= 0.050 % |
| Other, total | <= 0.15 % | <= 0.15 % |
| Oxygen, O | <= 0.30 % | <= 0.30 % |
| Silicon, Si | 1.7 - 1.9 % | 1.7 - 1.9 % |
| Titanium, Ti | <= 0.10 % | <= 0.10 % |
| Vanadium, V | 1.1 - 1.5 % | 1.1 - 1.5 % |
| Zinc, Zn | <= 0.25 % | <= 0.25 % |
Mechanical Properties:
| Mechanical Properties | Metric | English | Comments |
|---|---|---|---|
| Hardness, Brinell | 140 | 140 | |
| Tensile Strength, Ultimate | 450 MPa | 65300 psi | |
| 270 MPa @Temperature 300 °C, Time 3.60e+6 sec |
39200 psi @Temperature 572 °F, Time 1000 hour |
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| 310 MPa @Temperature 250 °C, Time 3.60e+6 sec |
45000 psi @Temperature 482 °F, Time 1000 hour |
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| 350 MPa @Temperature 200 °C, Time 3.60e+6 sec |
50800 psi @Temperature 392 °F, Time 1000 hour |
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| 380 MPa @Temperature 150 °C, Time 3.60e+6 sec |
55100 psi @Temperature 302 °F, Time 1000 hour |
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| 410 MPa @Temperature 100 °C, Time 3.60e+6 sec |
59500 psi @Temperature 212 °F, Time 1000 hour |
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| Tensile Strength, Yield | 385 MPa | 55800 psi | |
| 240 MPa @Temperature 300 °C |
34800 psi @Temperature 572 °F |
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| 275 MPa @Temperature 250 °C |
39900 psi @Temperature 482 °F |
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| 310 MPa @Temperature 200 °C |
45000 psi @Temperature 392 °F |
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| 350 MPa @Temperature 150 °C |
50800 psi @Temperature 302 °F |
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| 370 MPa @Temperature 100 °C |
53700 psi @Temperature 212 °F |
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| Elongation at Yield | 15 % | 15 % | |
| Tensile Modulus | 90.0 GPa | 13100 ksi | |
| Fatigue Strength | 160 MPa @Temperature 250 °C |
23200 psi @Temperature 482 °F |
Thermal Properties:
| Thermal Properties | Metric | English | Comments |
|---|---|---|---|
| CTE, linear | 19.0 µm/m-°C | 10.6 µin/in-°F | |
| Thermal Conductivity | 115 W/m-K | 798 BTU-in/hr-ft²-°F |
