Zirconium dioxide (ZrO2)-based composites with WC addition are demonstrated to be suitable for electrical discharge machining (EDM) in deionized water. ZrO2-based composites with 40 vol. % WC, obtained from distinctive WC powder sources, were produced in order to derive correlations between material removal rate (MRR), surface finish, wire EDM parameters and material properties. Dry reciprocating sliding experiments on wire-electrical discharge machined ZrO2-WC composite samples against WC-Co cemented carbide, performed using a pin-on-plate testing rig, revealed a significant influence of the microstructure of the secondary WC-phase on wire EDM behavior and frictional characteristics.status: publishe
The effect of surface conditions and secondary phase addition on the dry sliding friction and wear c...
Laboratory-made ZrO2-based composites with 40 vol. % WC, TiCN or TiN were tested in dry sliding cont...
Electrical discharge machining (EDM) is a non-conventional process where complex and difficult-to-cu...
Zirconium dioxide (ZrO2)-based composites with WC addition are demonstrated to be suitable for elect...
ZrO2-based composites with 40 vol.% WC, TiCN or TiN were processed in order to investigate the wire ...
ZrO2-based composites with 40 vol.% WC, TiCN or TiN have proven their feasibility for wire electrica...
Ceramic based composites are considered well suited for heavy tribological applications. Due to thei...
The interrelationships between the dispersion of the ZrO2 phase and the Electrical Discharge Machini...
ZrO2-based composites containing electro-conductive secondary phases have successfully proven their ...
The interrelationships between the dispersion of the ZrO₂ phase and the electrical discharge machini...
Hot-pressed, laboratory-made, ZrO2-based composites with 40 vol. % WC, TiCN or TiN were surface fini...
The tribological characteristics of hot pressed zirconia-based composites containing 40 vol.% of WC,...
Linearly reciprocating sliding wear experiments on WC-Co and WC-Ni cemented carbides and ZrO2-WC, Zr...
Zirconia-based ceramic composites such as ZrO2-WC, ZrO2-TiCN and ZrO2-TiN, are suitable for wire-EDM...
The effect of surface conditions and secondary phase addition on the dry sliding friction and wear c...
The effect of surface conditions and secondary phase addition on the dry sliding friction and wear c...
Laboratory-made ZrO2-based composites with 40 vol. % WC, TiCN or TiN were tested in dry sliding cont...
Electrical discharge machining (EDM) is a non-conventional process where complex and difficult-to-cu...
Zirconium dioxide (ZrO2)-based composites with WC addition are demonstrated to be suitable for elect...
ZrO2-based composites with 40 vol.% WC, TiCN or TiN were processed in order to investigate the wire ...
ZrO2-based composites with 40 vol.% WC, TiCN or TiN have proven their feasibility for wire electrica...
Ceramic based composites are considered well suited for heavy tribological applications. Due to thei...
The interrelationships between the dispersion of the ZrO2 phase and the Electrical Discharge Machini...
ZrO2-based composites containing electro-conductive secondary phases have successfully proven their ...
The interrelationships between the dispersion of the ZrO₂ phase and the electrical discharge machini...
Hot-pressed, laboratory-made, ZrO2-based composites with 40 vol. % WC, TiCN or TiN were surface fini...
The tribological characteristics of hot pressed zirconia-based composites containing 40 vol.% of WC,...
Linearly reciprocating sliding wear experiments on WC-Co and WC-Ni cemented carbides and ZrO2-WC, Zr...
Zirconia-based ceramic composites such as ZrO2-WC, ZrO2-TiCN and ZrO2-TiN, are suitable for wire-EDM...
The effect of surface conditions and secondary phase addition on the dry sliding friction and wear c...
The effect of surface conditions and secondary phase addition on the dry sliding friction and wear c...
Laboratory-made ZrO2-based composites with 40 vol. % WC, TiCN or TiN were tested in dry sliding cont...
Electrical discharge machining (EDM) is a non-conventional process where complex and difficult-to-cu...