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EDM machinability and frictional behavior of ZrO2-WC composites

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Abstract
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.
Keywords
Nanocrystalline, ZrO2-WC composite, Wire-EDM, Surface integrity, Dry reciprocative friction, PARTIALLY-STABILIZED ZIRCONIA, Y-TZP, CUTTING TOOLS, TOUGHENED ALUMINA, ADVANCED CERAMICS, TRANSFORMATION, PERFORMANCE, WEAR, MECHANISMS, POWDERS

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Chicago
Bonny, Koenraad, Patrick De Baets, J Vleugels, A Salehi, O Van Der Biest, B Lauwers, and W Liu. 2009. “EDM Machinability and Frictional Behavior of ZrO2-WC Composites.” International Journal of Advanced Manufacturing Technology 41 (11-12): 1085–1093.
APA
Bonny, K., De Baets, P., Vleugels, J., Salehi, A., Van Der Biest, O., Lauwers, B., & Liu, W. (2009). EDM machinability and frictional behavior of ZrO2-WC composites. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 41(11-12), 1085–1093.
Vancouver
1.
Bonny K, De Baets P, Vleugels J, Salehi A, Van Der Biest O, Lauwers B, et al. EDM machinability and frictional behavior of ZrO2-WC composites. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY. 2009;41(11-12):1085–93.
MLA
Bonny, Koenraad, Patrick De Baets, J Vleugels, et al. “EDM Machinability and Frictional Behavior of ZrO2-WC Composites.” INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY 41.11-12 (2009): 1085–1093. Print.
@article{694930,
  abstract     = {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.},
  author       = {Bonny, Koenraad and De Baets, Patrick and Vleugels, J and Salehi, A and Van Der Biest, O and Lauwers, B and Liu, W},
  issn         = {0268-3768},
  journal      = {INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY},
  keyword      = {Nanocrystalline,ZrO2-WC composite,Wire-EDM,Surface integrity,Dry reciprocative friction,PARTIALLY-STABILIZED ZIRCONIA,Y-TZP,CUTTING TOOLS,TOUGHENED ALUMINA,ADVANCED CERAMICS,TRANSFORMATION,PERFORMANCE,WEAR,MECHANISMS,POWDERS},
  language     = {eng},
  number       = {11-12},
  pages        = {1085--1093},
  title        = {EDM machinability and frictional behavior of ZrO2-WC composites},
  url          = {http://dx.doi.org/10.1007/s00170-008-1551-0},
  volume       = {41},
  year         = {2009},
}

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