Journal
CRYSTALS
Volume 11, Issue 12, Pages -Publisher
MDPI
DOI: 10.3390/cryst11121538
Keywords
additive manufacture; cemented carbide; functionally graded structure; adhesive wear
Funding
- Science and Technology Project of Guangdong Province, China [2017B090911006]
- Jihua Laboratory Project [X190061UZ190]
- Foshan Science and Technology Innovation Team project [FS0AA-KJ919-4402-0023]
- Heyuan Science and Technology Project [HEKE 000781]
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Research has shown that coated cutters on WC-Co/Ni-Zr FGC substrates exhibit higher wear resistance and cutting life, with the wear mechanism during cutting mainly being adhesion wear.
Currently, the research on mechanical behavior and cutting performance of functionally graded carbides is quite limited, which limits the rapid development of high-performance cemented carbide cutting tools. Based on WC-Co-Zr and WC-Ni-Zr, this study synthesized two kinds of cemented carbide cutters, i.e., the cemented carbide cutters with homogeneous microstructure and functionally graded carbide (FGC) cutters with FCC phase ZrN-enriched surfaces. Furthermore, TiAlN coating has been investigated on these carbide cutters. Mechanical behavior, friction, wear performance, and cutting behavior have been investigated for these coated carbides and their corresponding substrates. It was found that, as compared with coated cutters on WC-Co/Ni-Zr carbide substrates with homogeneous microstructures, the coated cutters on WC-Co/Ni-Zr FGC substrates with FCC phase-enriched surfaces show higher wear resistance and cutting life, and the wear mechanism during cutting is mainly adhesion wear.
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