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Tungsten heavy alloy
Tungsten heavy alloy
Tungsten Alloy, which contain elements such as nickel, copper and iron, produce a host of alloys which have engineering properties similar to steel, are relatively easy to machine, and can be plated or painted to enhance their corrosion protection. These alloys are approximately 50% denser than lead resulting in a higher concentration of mass in a limited area.
Usually, Tungsten alloy could be manufactured as the parts of military defense, extrusion die, some counterweights, such as yacht counterweights, vehicle counterweights, airplane counterweights, helicopter counterweights, boat counterweights, tank counterweights, etc.
Tungsten heavy alloy generally are refractory metal, which have two-phase composites consisting of W-Ni-Fe or W-Ni-Cu or even W-Ni-Cu-Fe, some tungsten alloy is added Co, Mo, Cr, etc. It could be made as various shapes, such as rod, cube, block, brick, ring, etc.
1, Diameter: 2.0-100.0mm
2, Length: 50-1000mm
3, Density: 16.5-18.75 g/cm3
4, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
5, Surface: Sintering surface, Forged surface, Ground surface
2, Length: 50-1000mm
3, Density: 16.5-18.75 g/cm3
4, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
5, Surface: Sintering surface, Forged surface, Ground surface
1, width×Length: (2.0-500.0mm)×(2.0-500.0mm)
2, thickness: 0.2mm-5.0mm;
3, Density: 15.8-18.75 g/cm3
4, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
5, Surface: Sintering surface, Forged surface, Ground surface
2, thickness: 0.2mm-5.0mm;
3, Density: 15.8-18.75 g/cm3
4, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
5, Surface: Sintering surface, Forged surface, Ground surface
1, Diameter: 1.0mm-100.0mm
2, Density: 15.8-18.75 g/cm3
3, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
4, Surface: Sintering surface, Forged surface, Ground surface
2, Density: 15.8-18.75 g/cm3
3, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
4, Surface: Sintering surface, Forged surface, Ground surface
1, Density: 15.8-18.75 g/cm3
2, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
3, Supply state: Sinter state, Grind state
4, Application: balance weight, Military industry
5, Advantage: High-density, High absorption capacity against X-rays and gamma rays, Good modulus of elasticity, High hardness.
2, Composition: W content: 85-99%, W-Ni-Fe, W-Ni-Cu
3, Supply state: Sinter state, Grind state
4, Application: balance weight, Military industry
5, Advantage: High-density, High absorption capacity against X-rays and gamma rays, Good modulus of elasticity, High hardness.
1, Suitable for highly complex geometric shapes
2, Most parts require little or no secondary machining process
3, High level of surface finish as processed, of 32 rms or better
4, Tight tolerances of up to forms complex metal shapes without the need for machining.
2, Most parts require little or no secondary machining process
3, High level of surface finish as processed, of 32 rms or better
4, Tight tolerances of up to forms complex metal shapes without the need for machining.
Experts find that radiation exposure could be reduced by maxing shielding. The density of a material is related to its radiation stopping ability. Higher density means better stopping power and shielding. Due to a higher density, tungsten alloy has a much higher stopping power than lead. Its greater linear attenuation of gamma radiations means that less is required for equal shielding. Alternatively equal amounts of tungsten alloy shielding provide diminished exposure risks than equivalent lead shielding.
Tungsten alloy is ideal for shielding against X rays and gamma radiation. The very high density of tungsten shielding (more than 60% denser than lead) allows a reduction in the physical size of shielding components, without compromising their rigidity or the effectiveness of the shielding characteristics.
Nuclear research establishments use nuclear reactors or cyclotrons to study or create radioactive materials.The very high density of tungsten shielding (more than 60% denser than lead) allows a reduction in the physical size of shielding components, without compromising the effectiveness of the shielding characteristics.
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