Microstructure and Wear of Cr/WC- Ni60 Based Composite Coating by Vacuum Sintering

Zhi Hong Dong; Hong Yuan Fan; Yang Shun Qian

doi:10.4028/www.scientific.net/AMR.557-559.1738

Paper Titles

Study on Behavior of Ceramic Phases in Laser Surface Ceramic Process
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Microstructure and Protertise of Self-Lubricative Ceramic Coatings on Carbon Steel by PEO in Aluminate Electrolyte Containing Graphite
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Cyclic-Oxidation of RexOy-Modified Aluminide Coating
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New Technology of Preparation of TiO₂/Tourmaline by Dry Coated Method and its Application in Coating
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Microstructure and Wear of Cr/WC- Ni60 Based Composite Coating by Vacuum Sintering
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Comparison of Microstructure and Properties of Ni-Based Overlay Deposit under Longitudinal Magnetic Field and Transverse Magnetic Field
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Comparison of Microstructure and Properties of Co-Based Overlay Deposit under Longitudinal Magnetic Field and Transverse Magnetic Field
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Morphology and Distribution of M₇C₃ and TiC In Situ Synthesized in Plasma Surfacing
p.1752

Study of Effect and Protection for Corrosion on Buried Pipeline by AC Interference
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 557-559Microstructure and Wear of Cr/WC- Ni60 Based...

Microstructure and Wear of Cr/WC- Ni60 Based Composite Coating by Vacuum Sintering

Abstract:

WC-Ni60 composite powders were mixed and deposited on Cr12MoV die steel by vacuum sintering technique. In order to prevent WC powders decomposition at the high temperature, Cr film was coated by D.C. magnetron sputtering and then prepared Cr/WC-Ni60 composite coating. The structure and composition and microhardness were measured by SEM and XRD and hardness tester. Tribological experiments were carried out on an abrasion machine. The results showed that thickness of Cr film is 3~5um. Some WC particles formed hard phases in nickel based solid solution to improve the hardness of the coatings. Due to Cr film preventing WC decomposition, Cr/WC-Ni coating had the higher hardness values compared with WC-Ni60 coating. The coating surface was uniform and compact and had no cracks. During the sliding wear, Cr/WC-Ni coating had a better wear resistance, and mass loss of wear was the least.