Microstructure, mechanical properties, electrical conductivity and wear behavior of high volume TiC reinforced Cu-matrix composites

Materials Characterization

Volumn 60, Issue 4, 2009, Pages 327-336

  Akhtar, Farid ^a,b   Askari, Syed Javid ^a   Shah, Khadijah Ali ^a   Du, Xueli ^a,c   Guo, Shiju ^a  

^a UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING   (China)

^b UNIVERSITY OF ENGINEERING AND TECHNOLOGY   (Pakistan)

^c TIANJIN UNIVERSITY OF TECHNOLOGY   (China)

Author keywords

Electrical conductivity; Mechanical properties; Microstructure; Titanium carbide composites; Wear

Indexed keywords

ALLOYING; ALLOYING ELEMENTS; ELECTRIC CONDUCTIVITY; ELECTROCHEMICAL CORROSION; MECHANICAL PROPERTIES; MECHANISMS; MICROSTRUCTURE; PHASE INTERFACES; TITANIUM; TITANIUM CARBIDE; TRIBOLOGY; WEAR RESISTANCE;

AVERAGE GRAIN SIZES; CARBIDE PARTICLES; COMPOSITE HARDNESS; COPPER-MATRIX COMPOSITES; ELECTRICAL CONDUCTIVITY; HIGH-SPEED STEELS; INTERFACE DEBONDING; MATRIX COMPOSITES; MATRIX PHASE; MEAN FREE PATHS; MICRO-CRACKS; MICRO-STRUCTURAL; PREDICTIVE MODELS; SINTERED DENSITIES; TITANIUM CARBIDE COMPOSITES; TITANIUM CARBIDE CONTENTS; TWO PHASE; UPPER BOUNDS; WEAR; WEAR BEHAVIORS; WEAR MECHANISMS; WEAR PERFORMANCE; WORN SURFACES;

METALLIC MATRIX COMPOSITES;

EID: 60949084769     PISSN: 10445803     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.matchar.2008.09.014     Document Type: Article

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