Wearing Resistance Tungsten Heavy Alloy Industry Parts WNiFe
|Place of Origin:||CHINA|
|Model Number:||WNICU - Heavy Tungsten Alloy Cylinders|
Payment & Shipping Terms:
|Minimum Order Quantity:||10 kg|
|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|
|Product Name:||Heavy Tungsten Alloy Cylinders||Type:||WNiCu|
|Tensile Strength:||730-1400 MPa||Elongation:||<11%|
|Standard:||ASTM B777-2010||Applications:||Armor-piercing Ammunition|
Heavy Tungsten Alloy Cylinders,
90WNiCu Tungsten Alloy Cylinders,
Tungsten Alloy Cylinders With Good Performance
Heavy-duty tungsten alloy rods are based on tungsten (generally 80% to 98%) and contain 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.
|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
|770 Min||910 Min||1440 Max||735 Min||920 Min||700 Min||850 Min|
|620 Min||620 Min||1280 Max||650 Min||650 Min||1340 Max||650 Min||650 Min||-||-|
|5 Min||15 Min||5 Min||5 Min||12 Min||3 Min||3 Min||12 Min||2 Min||6 Min|
Heavy tungsten alloys are mainly divided into two types of W series nickel iron and W series nickel copper, and even two W series nickel iron copper. In contrast, the onife alloy has good mechanical properties and plays an important role in the defense industry and various fields of the national economy. It is a very important new military material in the defense industry, and is gradually expanding to various civilian industries.
The tungsten content of tungsten alloy is between 90% ~ 98%, which is the reason for its high density (16.5 ~ 19.00g/cc). Nickel, iron, and/or copper are used as metal binders to bind brittle tungsten particles together, making tungsten alloys tough and easy to process. Iron-nickel is the most commonly used additive, and its mass ratio is 7ni:3fe or 8ni:2fe.