G.P. Khanra scite author profile

Intermetallic base MoSi 2 -SiC composite, an excellent high temperature oxidation-resistant material meant for the aerospace structural applications between 1600• C and 1700• C under oxidizing environment, has been developed successfully using powder metallurgy techniques. Mechanically milled (MM) MoSi 2 powder, blended with SiC particulate was consolidated by vacuum hot pressing, yielded about 98.5% theoretical density. The composite has been characterized for physical, mechanical, and thermal properties. Properties were found satisfactory. Machining of semis to intricate shape was possible through electro-discharge machining (EDM) process. Plasma arc jet test (PAJT) under argon and argon + oxygen environment has proved its excellent high temperature oxidation resistance properties as it could sustain high heat flux up to 250 W/cm 2 under oxidizing environment. The component realized has full potential to be used in critical aerospace application. This paper highlights the details of experimental work carried out and its characteristic properties attained.

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G.P. Khanra

Studies on the processing of nickel base porous wicks for capillary pumped loop for thermal management of spacecrafts

Reactive and liquid-phase sintering techniques

Development of nickel aluminide-carbon fibre intermetallic composite by reaction sintering

Development of MoSi₂-SiC Component for Satellite Launch Vehicle

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G.P. Khanra

Studies on the processing of nickel base porous wicks for capillary pumped loop for thermal management of spacecrafts

Reactive and liquid-phase sintering techniques

Development of nickel aluminide-carbon fibre intermetallic composite by reaction sintering

Development of MoSi2-SiC Component for Satellite Launch Vehicle

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Product

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Development of MoSi₂-SiC Component for Satellite Launch Vehicle