Abstract
Abstract
Ti+30%B4C/Ni (nickel-coated boron carbide) was used as cladding material and the titanium metal was prepared on the TC4 titanium alloy substrate by using the unmelted particle reinforced and in-situ autogeneous enhancement technology using a-hundred-watt grade fiber laser heat source to produce the B4C/TiC/TiB2 composite reinforced coating. We analyzed the phase composition, distribution and microstructure characteristics of the coating. The results show that the multicomponent composite strengthening coating prepared by adding B4C/Ni powder is mainly composed of metal-based α-Ti, unmelted particle-phase B4C, in-situ as-grown TiC, TiB2, TiB, and intermetallic Ti2Ni. Each ceramic particle is reinforced and intertwined, depending on growth. With the addition of 30%B4C/Ni, the average microhardness of the coating was 917.7 HV0.3, the coefficient of friction was stable at 0.19-0.22, and the minimum amount of atmospheric wear was 7.2 mg. The coating had good antifriction and wear resistance.
Reference22 articles.
1. Tailoring the mechanical and tribological properties of B4C/a-C coatings by controlling the boron carbide content;He;Surf. Coat Tech.,2017
2. Microstructure and properties of Fe-based alloy and B4C ceramics composite coating on low carbon steel by laser cladding;Cui;T. Mate. Heat Treat.,2011
3. Comparing the effects of different sintering methods for ceramics on the physical and mechanical properties of B4C-TiB2 nanocomposites;Saeedi;Int. J. Refract Met.,2015
4. Research on In-situ synthesis of B4C particulate reinforced Ni-based composite coatings by laser Cladding;Niu;Chinese J. Lasers,2005
5. Effects of sintering processes on mechanical properties and microstructure of Ti(C,N)-TiB2-Ni composite ceramic cutting tool material;Zou;Mat. Sci. Engi. A,2012
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