Copper tungsten alloys
are used where the combination of high heat resistance, high electrical and/or
thermal conductivity, and low thermal expansion are needed. Some of the
applications are in electric resistance welding, as electrical contacts, and as
heat sinks. As contact material the alloy is resistant to erosion by electric
arc. Tungsten copper alloys are also used in electrodes for electrical
discharge machining and electrochemical machining.
The CuW75
tungsten copper alloy, with 75% of tungsten, is widely used in chip carriers,
substrates, flanges and frames for power semiconductor devices. The high
thermal conductivity of copper together with the low thermal expansion of
tungsten allows thermal expansion matching to silicon, gallium arsenide, and
some ceramics.
Copper Tungsten
alloy with 70-90% of tungsten is used in liners of some specialty shaped
charges. The penetration is enhanced by factor 1.3 against copper for
homogeneous steel target, as both the density and the break-up time are
increased. Tungsten powder based shaped charge liners are especially suitable
for oil well completion. Other ductile metals can be used as binder in place of
copper as well. Graphite can be added as lubricant to the powder.
The manufacturing
process of Tungsten copper alloy is to press the refractory (tungsten or
tungsten carbide), sinter the pressed compact at a high temperature, and
infiltrate with copper. All of this is done under very closely controlled
conditions. The mechanical and physical properties of tungsten copper alloy
vary with composition. The thermal and electrical conductivity increase with
the amount of copper, while the hardness, strength, and resistance to
mechanical wear increase with the amount of tungsten or tungsten carbide. The
application determines the material choice.
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