[1] Wang Binxiu, Tian Xinguo. Application and development direction of laser surface alloying[J]. Manufacturing Technology & Machine Tool, 2012, (7): 90-92.

[2] Zang Chenfeng, Liu Changsheng, Zhang Xiaobin, et al.. Research progress of laser modification techniques used on roller surface[J]. Materials Review, 2010, 24(2): 6-10.

[3] Lo K H, Cheng F T, Kwok C T, et al.. Improvement of cavitation erosion resistance of AlSi 316 stainless steel by laser surface alloying usingfine WC powder[J]. Surface and Coatings Technology, 2003, 165(3): 258-267.

[4] Dobrzanski L A, Domagala J, Tanski T, et al.. Laser surface treatmentof magnesium alloy with WC and TiC powders using HPDL[J]. J Achie Mater Manu Eng, 2008, 28(2): 179-186.

[5] Galun R, Weisheit A, Mordike B L. Laser surface alloying of magnesium base alloys[J]. Journal of Laser Applications, 1996, 8(6): 299-305.

[6] Jiang Ping, Zhang Jijuan, Yu Ligen, et al.. Wear-resistant Ti5Si3/Ti composite coatings made by laser surface alloying[J]. Rare Metal Materials and Engineering, 2000, 29(4): 269-272.

[7] Chiu K Y, Cheng F T, Man H C. Corrosion behavior of AlSl 316L stainless steel surface- modified with NiTi[J]. Surface and Coatings Technology, 2006, 200(20): 6054-6061.

[8] Yu Ligen, Li Xiaoxuan, Wang Huaming. Microstructure and wear resistance of a laser surface alloyed C-TiAl intermetallic alloy Ti-48Al-2Cr-2Nb[J]. Rare Metal Materials and Engineering, 2000, 29(5): 328-331.

[9] Zhao Gaomin, Wang Kunlin, Li Chuangang. Effect of La2O3 on microstructure of laser cladding ferrite-based alloy coatings[J]. Heat Treatment of Metals, 2004, 29(4): 9-13.

[10] Wang Liqin, Ying Lixia, Zhang Sanchuan, et al.. Microstructure and performance of laser alloying Si3N4/graphite composite coating[J]. Chinese J Lasers, 2003, 30(9): 855-858.

[11] Pu Fei, Liu Yuanfu, Xu Xiangyang, et al.. Microstructure and TiC evolution behavior of TiC/Fe3Al composite coating fabricated by laser surface alloying[J]. Chinese J Lasers, 2014, 41(7): 0703002.

[12] Chen Chuanzhong, Wang Diangang, Lei Tingquan. Structure characteristics of laser clad ceramic and its composite coatings[J]. Laser Technology, 2001, 25(6): 401-405.

[13] Han Tian, Wang Aihua, Peng Jin, et al.. Submicron MC-type reinforced coating produced by laser alloying[J]. Laser Technology, 2012, 36(4): 441-444.

[14] Zhang Guangjun, Li Jun, Li Wenge, et al.. Microstructure and anti cracking property of Ni/WC-Co composite coatings prepared by laser clading[J]. Heat Treatment of Metals, 2007, 32(5): 1-5.

[15] Wang Huiping, Dai Jianqiang, Zhang Guangjun. Research on laser cladding nanometer WC/Co composite coating[J]. Research and Exploration in Laboratory, 2005, 24(12): 21-24.

[16] Wang Yu, Du Jianshi, Yao Jianhua. The research of laser alloying on the surface of 40Cr steel screw[J]. Applied Laser, 2007, 27(6): 470-472.

[17] Ma Wenyou, Tan Youhong, Liu Min. Microstructure and wear resistance of laser alloying on 60CrMnMo steel with WC-BFe-TiC[J]. Applied Laser, 2013, 33(4): 376-381.

[18] Zhang Shihong, Li Mingxi, Li Huisheng, et al.. Nano-Y2O3 dispersion strengthened Ni-based alloy laser coating[J]. Hot Working Technology, 2006, 35(6): 17-19.

[19] Wu Anqi, Liu Qibin, Sun Guixiang, et al.. Effect of Y2O3 content on microstructure and properties of laser alloying layer on 40Cr steel[J]. Transitions of Materials and Heat Treatment, 2011, 32(9): 141-145.

[20] Liu Qibin, Long Yun. Effect of Y2O3 on microstructure and properties of laser clad HT-1 alloy coating on 4Cr5W2SiV mould steel[J]. Heat Treatment of Metals, 2009, 34(8): 62-65.