Properties Of Ceramics Boron Carbide

Ball roller bearings.

Properties of ceramics boron carbide.

The high temperature stability up to 2400 c and the neutron absorption behavior of boron carbide are functionally advantageous for nuclear power plant constructions. With a vickers hardness of 30 gpa it is one of the hardest known materials behind cubic boron nitride and diamond. As such many of its applications revolve around its wear resistance including such uses as abrasives and nozzles. Boron carbide machining grinding.

Boron carbides are often used in ballistic armor taking advantage of exceptional hardness and low density. Boron carbide is characterised by its. Out of all the grades of advanced ceramics boron carbide has the lowest density of 2 5 g cm3 followed by sintered silicon nitride and carbide and aluminium nitride with a density of just over 3 0 g cm3. Boron carbide is an extremely hard type of ceramic with a low weight.

The flexural strength of 675 mpa and the fracture toughness of 2 5. 2 boron carbide ceramics can reach high mechanical strength and show exceptional high hardness which results in good abrasion. Boron carbide b 4 c is one of the world s hardest manufactured materials. Boron carbide b4c is one of the hardest materials known to man.

It also has some interesting and very useful nuclear properties which are used in applications such as power stations. Its strong chemical bonds and hard surface minimize wear in rigorous environments. Extreme hardness difficult to sinter to high relative densities without the use of sintering aids good chemical resistance good nuclear properties low density. Mechanical properties of b4c ceramics hot pressed with no additive and crb2 particles distributed in the b4c matrix were measured.

High neutron absorption cross section. Typical properties for boron carbide are listed in table 1. Boron carbide chemical formula approximately b 4 c is an extremely hard boron carbon ceramic and covalent material used in tank armor bulletproof vests engine sabotage powders as well as numerous industrial applications. Based on adhesion deformation theory of friction the generation of a frictional force is associated with the rupturing of adhesive bonds and with the deformation of thin surface layers on solid bodies.

This makes the material extremely useful for nozzles and ballistic applications. They are generally heavier than plastics but lighter than steels.