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: | 95WNiFe - Tungsten Heavy Alloy Nozzles |
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 Nozzles | Grade: | WNiFe |
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Density: | 18.5 G/cc | Purity: | 95%W |
Tensile Strength: | 750-1400 MPa | Elongation: | <10% |
Standards: | ASTM B777-2011 | Applications: | Industrial Parts |
High Light: | Temperature Resistant Tungsten Heavy Alloy,High Temperature Tungsten Nozzles,Tungsten Heavy Alloy Nozzles |
Product Description
Tungsten Heavy Alloy Nozzles are made of tungsten base (tungsten content is generally 80% to 98%) and a small amount of nickel, iron, copper, cobalt, molybdenum, chromium and other elements. The density of high specific gravity tungsten alloy can reach 15.20~18.70g/cm3, also known as high specific gravity tungsten alloy or high density alloy material. Because tungsten alloy weighs more than twice as much as steel.
Tungsten alloy has a series of excellent properties, high specific gravity: general specific gravity 16.5-18.75g/cm3, high strength: tensile strength 700-1000mpa, strong light absorption: 30-40% higher than general lead specific gravity, high thermal conductivity: mold 5 times that of steel; low thermal expansion coefficient: capacity is only 1/2/3/3 of steel, good electrical conductivity, resistance to welding and cutting.
The usual method of making heavy tungsten alloys is to mix the desired tungsten, iron, nickel or copper powders and then cold compress the liquid phase to near full density. During the liquid phase treatment, the matrix tungsten alloy melts, and part of the tungsten enters the solution, forming a microstructure of large tungsten particles (20-60 μm) dispersed in the matrix alloy.
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 |
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