Solid boron nitride is an excellent advanced machinable ceramic. A unique material, solid boron nitride solves problems that cannot be solved with other materials such as Al2O3 or SiC.
Solid state boron nitride can withstand temperatures in excess of 2000 °C and, depending on the grade, has a dielectric strength of nearly 1000 volts/mil. Hot-pressed boron nitride in billet form can be easily processed into rods, bars, plates and even custom shapes.
Its outstanding properties make boron nitride ideal as a fixing or template material for sealing or soldering operations in induction, vacuum and atmospheric furnaces; for molten metal crucibles; for heat exchangers and high temperature insulators.
Hot-pressed boron nitride, sometimes called ‘white graphite’, has a hexagonal, plate-like structure. This type of bond is the same as in diamonds and provides excellent physical, thermal and electrical properties in a variety of applications.
Hexagonal boron nitride can be easily machined into complex shapes using conventional high-speed cutting tools.
Solid boron nitride is an excellent advanced ceramic for machining. As a unique material, solid boron nitride solves problems that cannot be solved with other compositions such as Al2O3 or SiC.
Solid-state boron nitride can withstand temperatures in excess of 2000 °C and, depending on the grade, has a dielectric strength of nearly 1000 volts/mil. Hot-pressed boron nitride in billet form can be easily processed into rods, sheets and even custom shapes – all with Multi-lab.
Its outstanding properties make boron nitride ideal as a fixing or template material for sealing or soldering operations in induction, vacuum and atmospheric furnaces; for molten metal crucibles; for heat exchangers; and for high-temperature insulators.
Hot-pressed boron nitride, sometimes called ‘white graphite’, has a hexagonal, plate-like structure. This bond is the same as in diamonds and provides excellent physical, thermal and electrical properties in a variety of applications.
Boron Nitride Crucible can be easily machined into complex shapes using conventional high-speed cutting tools.