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Doped tungsten doubles lifetime in sapphire growth

Plansee has used a novel material to prolong the lifetime of heaters used in the high temperature growth of sapphire boules used in LED manufacturing

Plansee uses the creep-resistant tungsten material 'WVM' to manufacture heaters for sapphire growth. These have more than twice the service life of conventional tungsten heaters.

Sapphire growth takes place at high temperatures of approximately 2100 °C. In the Kyropoulos process, rod heaters made from pure tungsten are generally used. These often have to be replaced after just a few cycles. This is due to the high level of embrittlement and deformation. It can sometimes be so extreme that the heater rods touch the shielding and cause short-circuits.

To meet the needs of single crystal growth applications, Plansee has further developed a material that has already earned the plaudits of the lighting industry for its behaviour at high temperatures.

: The material consists of pure tungsten with very low quantities (30-70 ppm) of potassium. The creep resistance of this material is several times better than that of pure tungsten. This capability was recently confirmed by a sag test performed by Plansee's materials engineers.

Putting WVM to the test

The scientists at Plansee simulated the use of its novel material at high temperatures and under various mechanical loads. The sag test proved that WVM sags four times less than pure tungsten.

This is because potassium leads to a more stable and coarser crystalline structure than pure tungsten. This property also has a positive influence on the material's creep resistance.

The graph below compares the sag for pure tungsten and WVM.

Samples used in the analysis obtained from the graph above were tested at 2100 °C, for 6 hours with a bending stress of 22 MPa.

Plansee says rod heaters, mesh heaters, and sheet heaters made from WVM provide excellent dimensional stability. Thi si particularly when it comes to high-temperature processes such as sapphire growth. While conventional tungsten heaters have to be replaced after just a few cycles, WVM heaters are claimed to easily last for 2 to 3 times as long.

Rod type heater used in sapphire growth

At 99.97 percent, the purity of WVM is the same as that of pure Plansee tungsten. The potassium content in WVM is firmly bound in the material. As a result, it will not contaminate the furnace atmosphere. The material is suitable for use in extremely sensitive high-vacuum processes in the same way as pure tungsten.

But when it comes to sapphire growth, Plansee believes it is able to offer more than hot zones with particularly durable heaters. The company also produces the corresponding pressed-sintered tungsten crucibles. These high purity crucibles have an ultra-smooth surface.

The sapphire can be extracted without difficulty from the crucible without any damage to the crucible surface. And the smooth surface is less susceptible to corrosion in contact with the sapphire melt. With their high and homogenous density of over 93 % the crucibles are non-deformable even at high and rapidly changing temperatures.
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