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22.08.2017

Mechanism of Zr in in situ-synthesized particle reinforced composite coatings by laser cladding

verfasst von: Yao-Wei Yong, Wei Fu, Qi-Lin Deng, Jian-Guo Yang

Erschienen in: Rare Metals | Ausgabe 12/2017

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Abstract

By adding mixture of ZrO₂ and carbon, a Zr-enhanced composite coating was produced onto an AISI 1045 substrate by laser cladding. The microstructure and phase formation, microhardness and wear resistance of the composite coating were studied. The experimental results indicate that the composite coating with metallurgical bonding to substrate consists of γ-Ni, massive ceramic particles of ZrC, NiZr₂, Ni₇Zr₂, (Fe, Ni)₂₃C₆ and Fe₃C. The in situ-synthesized ZrC particles are uniformly dispersed in composite coating, which refines the microstructure of composite coating. With different ZrO₂ and carbon additions, the properties are improved differently. Finally, the fine in situ ZrC particles improve the microhardness of composite coating to HV_0.2 650, which is nearly 2.7 times that of Ni25 coating. Also, the composite coating has an advantage in wear resistance; it offers better wear resistance when more mixture of ZrO₂ and carbon was added in nickel alloys.

Vorheriger Artikel Fracture behavior of a composite composed by Ti-aluminide multi-layered and continuous-SiCf-reinforced Ti-matrix

Nächster Artikel Synthesis of mesoporous silica/iron oxide nanocomposites and application of optimum sample as adsorbent in removal of heavy metals

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Titel: Mechanism of Zr in in situ-synthesized particle reinforced composite coatings by laser cladding
verfasst von: Yao-Wei Yong
Wei Fu
Qi-Lin Deng
Jian-Guo Yang
Publikationsdatum: 22.08.2017
Verlag: Nonferrous Metals Society of China
Erschienen in: Rare Metals / Ausgabe 12/2017
Print ISSN: 1001-0521
Elektronische ISSN: 1867-7185
DOI: https://doi.org/10.1007/s12598-017-0944-3

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