WNiFe Tungsten Heavy Alloy Aviation Rod
Product Details:
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Place of Origin: | CHINA |
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Brand Name: | JINXING |
Certification: | ISO 9001 |
Model Number: | Tungsten Heavy Alloy Plate WNiCu |
Payment & Shipping Terms:
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Minimum Order Quantity: | 10 kg |
Price: | Negotiable |
Packaging Details: | plywood cases |
Delivery Time: | 15-20 days |
Payment Terms: | L/C, T/T, D/P, Western Union |
Supply Ability: | 2000 kg per month |
Detail Information |
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Product Name: | Tungsten Heavy Alloy Plate WNiCu | Type: | 95WNiFe |
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Density: | 16.5-18.5 G/cc | Purity: | 95% W |
Tensile Strength: | 780-1400 MPa | Elongation: | <10% |
Standards: | ASTM B777-2011 | Applications: | Aircraft |
Highlight: | B777 Tungsten Heavy Alloy Plate,ASTM B777 Tungsten Alloy Plate,Tungsten Alloy Plate WNiCu |
Product Description
Tungsten Heavy Alloy Plate is also called tungsten heavy alloy because the weight of tungsten alloy is more than twice that of iron or steel. Tungsten alloys with high specific gravity are usually refractory metals with two-phase composites composed of W-Ni-Fe or W-Ni-Cu or even W-Ni-Cu-Fe. Some tungsten alloys add rare earths and/or other metals such as Co. , Mo, Cr, tungsten heavy alloys have a very high melting point, the density is twice that of steel, and more than 50% heavier than lead.
Chemical Composition | 90%W | 93%W | 95%W | 97%W | ||||||
State | Sinter | Vacuum | Forge | Sinter | Vacuum | Forge | Sinter | Vacuum | Sinter | Vacuum |
Density (g/cc) |
16.85-17.25 | 17.15-17.85 | 17.75-18.35 | 18.25- 18.85 | ||||||
Hardness (HRC) |
32 Max | 30 Max | 40 Min | 33 Max | 31 Max | 40 Min | 34 Max | 32 Max | 35 Max | 33 Max |
Tensile Strength (Max) | 770 Min | 900 Min | 1400 Max |
770 Min | 910 Min | 1440 Max | 735 Min | 920 Min | 700 Min | 850 Min |
Yield Strength (Mpa) |
620 Min | 620 Min | 1280 Max | 650 Min | 650 Min | 1340 Max | 650 Min | 650 Min | - | - |
Elongation (%) |
5 Min | 15 Min | 5 Min | 5 Min | 12 Min | 3 Min | 3 Min | 12 Min | 2 Min | 6 Min |
Tungsten Heavy Alloy Plate Picture:
The tungsten content in tungsten heavy alloys varies from 90% to 98%, which is responsible for their high density (16.5 to 19.00g/cc). Nickel, iron and/or copper are used as a metal binder base to hold the brittle tungsten particles together, making the tungsten alloy malleable and easy to work. Nickel-iron is the most commonly used additive, with a ratio of 7Ni:3Fe or 8Ni:2Fe (weight ratio).
Common processes for preparing tungsten heavy alloys include mixing the desired amount of tungsten, iron, nickel or copper powder and then cold pressing and liquid phase sintering to almost full density. During the liquid phase treatment, the matrix tungsten alloy melts and brings some tungsten into the solution to form a microstructure through which large tungsten particles (20 -- 60μm) are dispersed in the matrix alloy.
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