Silicon Carbide Esteemed to Perform High Temperature Allocate


  • Bangshidhar Goswami
  • Chinmoy Kumar Goswami


Ceramic, Compose, Fibre, High temperature, Polymer hybrid, Silicon carbide, Strength


This article is a description of silicon carbide

(SiC) to access optimal manufacture process

to implicate high-temperature usage. Silicon

carbide (SiC) has been studied to sublime and

not melt at any high temperature. Ethical

scripture has a look to high sublimation

temperature, given by, 2700°C, so forth has

suggestively issued to be useful for bearings

and furnace parts, since SiC has possessed

inert chemistry. Deterioration after use has

been oxidation of silicon carbide heating

elements so as to form silica sand and

proportioned increase in electric resistance.

The suggestive temperature of oxidation has

been 800°C, so forth, inclusive has been rated

to increase proportioned loss. SiC has studied

to melt congruently to subject negative slope

of melting curve during assessing under the

pressure of 5–8 GPa and temperature up to

3300 K. Silicon carbide has been expensive

and under the limitation of shape and sizes as

well low in strength, in lieu, expedite merged

fame as well subsidized askew has versed as

to verb excellent tensile strength, oxidation

resistance, and high in thermally conducting

scripture. Etiquette to replace high

temperature alloy and single-phase ceramic

matter in industrial applicability has

fabricated ceramic matrix composite. In lieu,

the appreciable margin has been availed to

succeed after improving in specific strength,

specific modulus, temperature resistance,

oxidation resistance, and corrosion resistance.

Etiquette of applicability has appeared in the

following sectors: aviation, aerospace, atomic

energy, high-property weaponry, and high

temperature appliance.