Pure Tungsten As a high performance materials, Pure Tungsten has high melting temperature, high density, low vapor pressure, low thermal expansion combined with good thermal conductivity, sufficient electrical resistance, high modulus of elasticity. Tungsten sheets and disk are available with alkali washed or ground finish. Depending on thickness, sizes are up to 450 x 1000 mm. Thickness are from 0.1 to 15 mm.
Applications: Furnace parts, Semiconductor Base Plates, Components for Electron Tubes, Emission Cathodes for Electron Beam Evaporation, Cathodes and Anodes for Ion Implantation, Tubes / Boats for Sintering of Capacitors, Targets for X-ray Diagnostics, Crucibles, Heating Elements, X-ray Radiation Shielding, Sputtering Targets, Electrodes.
Bar and rod stock are available with ground surfaces and as sintered or swaged condition. Diameters range from 1 to 30 mm and up to 2000 mm long depending on size and conditioning. Large ranges of custom crucibles and single crystal ingots are offered.
Tungsten product specifications
As high performance materials, Tungsten-Copper and Molybdenum-Copper are characterized by high thermal conductivity, low thermal expansion and high wear resistance combined with excellent electrical conductivity.
Description of Tungsten-Copper Alloys These composites are made by infiltrating porous tungsten or molybdenum with molten copper in a vacuum. Thus providing a direct copper path for heat or electrical conductivity.
Tungsten-Copper for Electrical Application Alloys and Properties: High Voltage Arc Contacts, Vacuum Contacts, Electrodes for Resistant Welding and Spark Erosion, Leaders for Steel Rolling, Dies for Casting, Balance Weights, Rocket Parts.
Tungsten-Copper for Electric Application Tungsten-Copper high performance composites for electrical applications are made from carefully controlled porous tungsten that is vacuum infiltrated with molten copper. This provides a superior electrical contact material that combines the refractory, long lasting wear resistant properties of tungsten with the high thermal and electrical conductivity of copper. Tungsten-Copper high performance composites for electrical applications are made from carefully controlled porous tungsten that is vacuum infiltrated with molten copper. This provides a superior electrical contact material that combines the refractory, long lasting wear resistant properties of tungsten with the high thermal and electrical conductivity of copper.
Heat Sink Applications Heat Sinks and Spreaders, Microwave Carriers, Hermetic Package Bases and Housings, Ceramic Substrate Carriers, GaAs and Silicon Device Mounts, Laser Diode Mounts. Tungsten-Copper for Heat Sinks
MIM is a fast growing manufacturing method that bridges the manufacturing gap that other metal working technologies and shaping processes cannot be fulfilled because of technology or cost. MIM can be a very cost effective method for producing large quantities of precision parts. MIM Advantages High Shape Complexity: MIM process can produce more complex parts than either investment casting or traditional press and sinter techniques. Low Cost: Machining operations can be eliminated. MIM Processing Why we comment and present MIM Processing?
Tight Tolerances: Dimensions of parts produced with our feedstock can be held to +/ ~0.002" per inch. High Density: MIM parts produced with our feedstock will have density levels between %. These l levels typically exceed traditional press and sinter techniques. High Performance: The tensile strengths, elongations and hardness are superior to traditional press and sinter techniques, and comparable to investment casting or machine components.
MIM Typical Tungsten Materials
Tungsten Product Applications Nuclear and medical radiation shielding for x-ray Shields for radiation therapy and industrial applications Aircraft and helicopter rotor balance weights Instrument balance weight Weights for sport equipment