Product Name: Terbium Hexaboride (TbB6) 
Specification: 0.8-10um (D50) 
Appearance: Irregular 
Color: Black Grey 
Features: High hardness, high conductivity, high melting point, low coefficient of thermal expansion, good chemical stability, superconductivity, magnetism 
Applications: Magnetic and ferromagnetic material research, semiconductor materials, optics, satellites, spacecraft, nuclear energy, plasma sources, radar, electron beam processing, electron microscopes, electron beam welding machines, 3D printing, instrumentation, medical devices, and other fields

English name: Terbium Boride 
Molecular formula: TbB6 
CAS number: 12008-31-0 
Molecular weight: 223.79 
EINECS number: 234-537-9 
nature: 
Terbium boride is a black crystalline solid that is highly stable and heat-resistant at room temperature. It has a high melting point and hardness. Terbium boride has good conductivity and thermal conductivity. It is a material with semiconductor properties that exhibits superconducting properties at low temperatures. 
Manufacturing method: 
The common preparation method of terbium boride is to react terbium and boron in an appropriate molar ratio at high temperature. The most commonly used method is to prepare terbium boride through high-temperature solid-state reaction or pyrolysis of a mixture of terbium and boron. 
Purpose: 
Terbium boride is often used as an important material in scientific research. Due to its superconducting and magnetic properties, terbium boride has a wide range of applications in magnetism and the study of ferromagnetic materials. In addition, terbium boride also plays a role in other fields, such as the preparation of semiconductor materials, optical lenses, and optical thin films.