Product Series

The bismuth-based alloy has an extremely low melting point, is easy to mold, and can be used after solidification. Soaked in hot water and hot oil or baked at low temperature, it is easily removed from patterns, molds, fixtures or parts, and can be recycled for repeated use.

Bismuth-based, lead-based and tin-based low melting point alloys with different melting points can also be produced based on customer requirements.

The raw materials are strictly controlled, each process can be traced back, and the temperature range is precisely maintained. The product has good processing ductility and good forming performance, and can also be customized.

Lead-bismuth fast reactor: Lead-bismuth alloy has a low melting point and a high boiling point. Lead-bismuth alloy reactors are inherently safer and more resistant to severe accidents than conventional reactors. The melting point of the heat transfer material is too high, making it easy to solidify at low temperatures, which will ultimately cause the reactor to be scrapped. If the boiling point is too low, the heat transfer material will easily evaporate into gas, which is not only poisonous but may also cause the shell to burst. A heat transfer medium with a low melting point and a high boiling point means higher energy density and a longer operating life. Lead-bismuth alloy reactors can be designed not only as large power plants at the gigawatt scale, but also as small modular nuclear power sources at the megawatt scale. They can even be used as small mobile nuclear power sources, and can be loaded onto a normal-sized vehicle.

Special block for radiotherapy;

Internal and external support fillers for curved pipes and other profiles;

Support for anchoring parts during cutting and grinding;

Adhesives between different substances;

Safety devices for electrical and fire protection;

Molds and casting tools for small batch production;

Heat transfer medium.