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Development of spark plasma sintered conductive SiC–TiB <sub>2</sub> composites for electrical discharge machining applications

Surya Prakasarao Chodisetti, V. K. Malik, B. Venkata Manoj Kumar

2021International Journal of Applied Ceramic Technology21 citationsDOI

Abstract

Abstract Highly dense electrically conductive silicon carbide (SiC)–(0, 10, 20, and 30 vol%) titanium boride (TiB 2 ) composites with 10 vol% of Y 2 O 3 –AlN additives were fabricated at a relatively low temperature of 1800°C by spark plasma sintering in nitrogen atmosphere. Phase analysis of sintered composites reveals suppressed β→α phase transformation due to low sintering temperature, nitride additives, and nitrogen sintering atmosphere. With increase in TiB 2 content, hardness increased from 20.6 to 23.7 GPa and fracture toughness increased from 3.6 to 5.5 MPa m 1/2 . The electrical conductivity increased to a remarkable 2.72 × 10 3 (Ω cm) –1 for SiC–30 vol% TiB 2 composites due to large amount of conductive reinforcement, additive composition, and sintering in nitrogen atmosphere. The successful electrical discharge machining illustrates potential of the sintered SiC–TiB 2 composites toward extending the application regime of conventional SiC‐based ceramics.

Topics & Concepts

Materials scienceSpark plasma sinteringSinteringComposite materialElectrical discharge machiningSilicon carbideCeramicElectrical resistivity and conductivityCarbideFracture toughnessElectrical conductorNitridePhase (matter)MachiningMetallurgyEngineeringLayer (electronics)Organic chemistryChemistryElectrical engineeringAdvanced ceramic materials synthesisAdvanced materials and compositesMXene and MAX Phase Materials
Development of spark plasma sintered conductive SiC–TiB <sub>2</sub> composites for electrical discharge machining applications | Litcius