Optimization of a Non-Uniform Fe45 Powder Laser Cladding Process Based on Orthogonal Test

Candong Zhang; Linsen Shu

doi:10.3788/LOP202158.0514006

[1] Haldar B, Saha P. Identifying defects and problems in laser cladding and suggestions of some remedies for the same. Materials Today： Proceedings, 5, 13090-13101(2018).

[2] Chen W J, Chen H, Li C C et al. Microstructure and fatigue crack growth of EA4T steel in laser cladding remanufacturing. Engineering Failure Analysis, 79, 120-129(2017).

[3] Li Q T, Fu H G, Lei Y P. Research development of iron-based wear-resistant coating fabricated by laser cladding technique. Journal of Beijing University of Technology, 39, 1552-1560(2013).

[4] Zhu H M, Hu J P, Li B C et al. Research progress of laser cladding stainless steel coating on Fe-based substrate. Surface Technology, 49, 74-84(2020).

[5] Guo W, Zhang Y P, Chai R X. Numerical simulation and experimental study of single-track laser cladding of 304 stainless steels. Laser & Optoelectronics Progress, 56, 091401(2019).

[6] Weng F, Chen C Z, Yu H J. Research status of laser cladding on titanium and its alloys： a review. Materials & Design, 58, 412-425(2014).

[7] Wang J S, Shu L S. Laser cladding remanufacturing and repair of agricultural tractor spindle. Laser & Optoelectronics Progress, 57, 071404(2020).

[8] Chen J F, Li X P, Xue Y P. Friction and wear properties of laser cladding Fe901 alloy coating on 45 steel surface. Chinese Journal of Lasers, 46, 0502001(2019).

[9] Ye S Y, Liu J Y, Yang W. Microstructure and properties of laser cladded 316L stainless steel layer. Surface Technology, 47, 48-53(2018).

[10] Xu Z Z, Wang Z Y, He Z J et al. Effect of laser power on microstructure and properties of laser cladding CeO2 modified 316L coating. Chinese Journal of Rare Metals, 44, 281-286(2020).

[11] Zan S P, Jiao J K, Zhang W W. Study on laser cladding process of 316L stainless steel powder. Laser & Optoelectronics Progress, 53, 061406(2016).

[12] Fan P F, Zhang G. Study on process optimization of WC-Co50 cermet composite coating by laser cladding. International Journal of Refractory Metals and Hard Materials, 87, 105133(2020).

[13] Li C L. Research on comprehensive evaluation method of the quality of CBN coating on the surface of titanium alloy parts(2016).

[14] Reddy L, Preston S P, Shipway P H et al. Process parameter optimization of laser clad iron based alloy： predictive models of deposition efficiency， porosity and dilution. Surface and Coatings Technology, 349, 198-207(2018).

[15] Wang B, Shu L S. Optimization of process parameters of laser cladding 304L alloy powder based on orthogonal experiment. Applied Laser, 39, 580-585(2019).

[16] Zhao Y, Chen L Y, Sun J Y et al. Mechanical property of YCF101 coating under different overlap modes by laser cladding. Optik, 212, 164714(2020).

[17] Lian G F, Yao M P, Chen C R et al. Control of the quality and efficiency of multi-track overlapping laser cladding. Surface Technology, 47, 229-239(2018).