Pure Tungsten
Pure Tungsten is well known for having an exceptionally high melting point (3420°C), thermal stability and resistance to deformation at elevated temperatures.
It is widely used in high-temperature applications such as welding electrodes, furnace heating elements, and vacuum evaporation boats. Tungsten alloys serve as effective heat sinks, while pure tungsten is commonly used in critical implanter components.
Molybdenum
Molybdenum is known for its excellent high-temperature strength (2620°C), thermal stability and resistance to creep.
Molybdenum boats are widely used in high-temperature furnaces and the ceramic industry, particularly for hydrogen sintering of oxide ceramics in electronics manufacturing. They serve as reliable carriers and fixtures for consistent high-temperature processing.
Titanium
Titanium is highly resistant to environmental and chemical corrosion, even in harsh and polluted conditions. Widely used in chemical processing industries, titanium enhances equipment durability and extends service life.
Its exceptional corrosion resistance and strength provide significant lifecycle cost advantages over copper, nickel, and many grades of stainless steel.
Quartz
Quartz boats and tubes are widely used in high-temperature furnaces, chemical processing, and semiconductor applications such as oxidation, diffusion and CVD.
Customized quartz components are also supplied for wafer fabrication, scientific research, pharmaceuticals and other industrial fields requiring high purity and thermal stability.
Copper Tungsten
Copper tungsten combines the excellent thermal conductivity of copper with the low thermal expansion and strength of tungsten.
This unique balance makes it ideal for applications such as resistance welding, heat sinks, electrical contacts, electrical discharge machining (EDM) and electrochemical machining (ECM).
