[1] Liang C G. 5): 26-28, Ⅳ[J]. Deng Q L. A comparison with different material feeding methods of laser direct manufacturing metallic dense-component based on laser cladding technology. Electromachining & Mould(2003).
[2] Dong G. Numerical simulation of molten pool in coaxial powder-feed laser cladding[D]. Changsha: Hunan University(2013).
[3] Yang N, Yang X C. Numerical simulation of flow field of nozzle in laser cladding[J]. Chinese Journal of Lasers, 35, 452-455(2008).
[4] Ren L L, Liu J P, Feng Y C[J]. Research status of manufacturing technology of wire feeding and adding materials for metal components MW Metal Forming, 2017, 64-68.
[5] Shi S H, Fu G Y, Li L et al. Realization and research of laser cladding with method of internal wire feeding through a hollow laser beam[J]. Chinese Journal of Lasers, 37, 266-270(2010).
[6] Li H Y. Research on laser cladding rapid manufacturing with coaxial inside-beam wire feeding[D]. Suzhou: Soochow University(2012).
[7] Yang G J. Study on inside-laser coaxial wire feeding process of laser cladding[D]. Suzhou: Soochow University(2008).
[8] Nurminen J, Riihimaki J, Nakki J et al. Comparison of laser cladding with powder and hot and cold wire techniques. [C]∥International Congress on Applications of Lasers & Electro-Optics, October 30-November 2, 2006, Scottsdale, Arizona, USA. USA: AIP, 634-637(2006).
[9] Xiao R S, Zuo T C, Günter A et al. Investigation on current enhanced CO2 laser welding of aluminum[J]. Chinese Journal of Lasers, 31, 359-362(2004).
[10] Wen P, Zheng S Q, Shan J G et al. 36(9): 17-20, Ⅱ[J]. optimization of wire feeding parameters in laser hot wire welding. Transactions of the China Welding Institution(2015).