Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding
In this work, Ni/TiC composites were synthesized by the laser cladding technique (LCT). A scanning electron microscope (SEM), X-ray diffractometer (XRD), microhardness meter, electrochemical workstation, and friction and wear tester examined the microstructure, surface morphology, phase structure, m...
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sg-ntu-dr.10356-1619282022-09-26T07:50:47Z Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding Yu, Xinlong Ma, Chunyang Yao, Liming Xiao, Zhongmin Ren, Yongliang School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Laser Cladding Technique Fabrication In this work, Ni/TiC composites were synthesized by the laser cladding technique (LCT). A scanning electron microscope (SEM), X-ray diffractometer (XRD), microhardness meter, electrochemical workstation, and friction and wear tester examined the microstructure, surface morphology, phase structure, microhardness, wear, and corrosion resistances of the Ni/TiC composites. These results indicated the Ni/40TiC composite contained finer equiaxed crystals than the Ni and Ni/20TiC composites. In addition, numerous TiC particles in the Ni/40TiC composite impeded growth of the nickel crystals, which resulted in the fine microstructure of the Ni/40TiC composite. The Ni, Ni/20TiC, and Ni/40TiC composites exhibited face-centered cubic (f c c) lattices. The average microhardness values of the Ni/20TiC and Ni/40TiC composites were approximately 748 HV and 851 HV, respectively. The Ni/40TiC composite had the lowest friction coefficient (0.43) among all three coatings, and only some shallow scratches appeared on the surface of the Ni/40TiC composite. The corrosion potential (E) of Ni/40TiC exceeded the Ni/20TiC composite, and both were larger than the Ni composite, which indicated the Ni/40TiC composite had outstanding corrosion resistance and the Ni composite had poor corrosion resistance. The corrosion current densities (i) of Ni, Ni/20TiC, and Ni/40TiC composites were 5.912, 4.405, and 3.248 μA/cm2, respectively. The research is supported by the National Natural Science Foundation of China (Granted no. 51974089), and the China Scholarship Council (Granted nos. 201908230345, 202008230022). 2022-09-26T07:50:47Z 2022-09-26T07:50:47Z 2022 Journal Article Yu, X., Ma, C., Yao, L., Xiao, Z. & Ren, Y. (2022). Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding. Ceramics International, 48(15), 21814-21821. https://dx.doi.org/10.1016/j.ceramint.2022.04.160 0272-8842 https://hdl.handle.net/10356/161928 10.1016/j.ceramint.2022.04.160 2-s2.0-85128553841 15 48 21814 21821 en Ceramics International © 2022 Elsevier Ltd and Techna Group S.r.l. All rights reserved. |
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Engineering::Mechanical engineering Laser Cladding Technique Fabrication Yu, Xinlong Ma, Chunyang Yao, Liming Xiao, Zhongmin Ren, Yongliang Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
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In this work, Ni/TiC composites were synthesized by the laser cladding technique (LCT). A scanning electron microscope (SEM), X-ray diffractometer (XRD), microhardness meter, electrochemical workstation, and friction and wear tester examined the microstructure, surface morphology, phase structure, microhardness, wear, and corrosion resistances of the Ni/TiC composites. These results indicated the Ni/40TiC composite contained finer equiaxed crystals than the Ni and Ni/20TiC composites. In addition, numerous TiC particles in the Ni/40TiC composite impeded growth of the nickel crystals, which resulted in the fine microstructure of the Ni/40TiC composite. The Ni, Ni/20TiC, and Ni/40TiC composites exhibited face-centered cubic (f c c) lattices. The average microhardness values of the Ni/20TiC and Ni/40TiC composites were approximately 748 HV and 851 HV, respectively. The Ni/40TiC composite had the lowest friction coefficient (0.43) among all three coatings, and only some shallow scratches appeared on the surface of the Ni/40TiC composite. The corrosion potential (E) of Ni/40TiC exceeded the Ni/20TiC composite, and both were larger than the Ni composite, which indicated the Ni/40TiC composite had outstanding corrosion resistance and the Ni composite had poor corrosion resistance. The corrosion current densities (i) of Ni, Ni/20TiC, and Ni/40TiC composites were 5.912, 4.405, and 3.248 μA/cm2, respectively. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Yu, Xinlong Ma, Chunyang Yao, Liming Xiao, Zhongmin Ren, Yongliang |
| format |
Article |
| author |
Yu, Xinlong Ma, Chunyang Yao, Liming Xiao, Zhongmin Ren, Yongliang |
| author_sort |
Yu, Xinlong |
| title |
Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| title_short |
Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| title_full |
Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| title_fullStr |
Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| title_full_unstemmed |
Microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| title_sort |
microstructures and properties of nickel-titanium carbide composites fabricated by laser cladding |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161928 |
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1745574639152660480 |