发表论文：
[1] Yongjun Huang, Xiaoyan Zeng. Study on modes of energy action in laser induction hybrid cladding. Applied Surface Science, 256(2009): 749-756. (SCI检索，IDS: 519HY)
[2] Yongjun Huang , Xiaoyan Zeng. Investigation on cracking behavior of Ni-based coating by laser induction hybrid cladding. Applied Surface Science, 256(2010): 5985-5992. (SCI检索，IDS：607TX)
[3] Yongjun Huang, Xiaoyan Zeng. Microstructure and interface interaction in laser induction hybrid cadding of Ni-based coating. Applied Surface Science, 255(2009): 3940-3945. (SCI检索，IDS: 391PP)
[4] Yongjun Hunag. Characterization of dilution action in laser induction hybrid cladding. Optics & Laser Technology, 43 (2011): 965-973. (SCI检索，IDS: 734NW)
[5] Yongjun Huang, Shengfa Yuan. Modeling the geometric formation and powder deposition mass in laser induction hybrid cladding. Journal of Mechanical Science and Technology, 26(8)(2012):2347-2351. (SCI检索，IDS: 988XR)
[6] Yongjun Huang, Xiaoyan Zeng. Analysis of laser induction hybrid cladding processing conditions. Proc. Of SPIE, Vol 6722, 67221E, 2007. (EI检索，Accession number:2008171122316)
[7] Shengfeng Zhou, Yongjun Huang, Xiaoyan Zeng. A study of Ni-based WC composite coatings by laser induction hybrid rapid cladding with elliptical spot. Applied Surface Science, 2008, 254 (10): 3110-3119. (SCI检索，IDS：277W)
[8] Shengfeng Zhou, Yongjun Huang, Xiaoyan Zeng, Qianwu Hu. Microstructure characteristics of Ni-based WC composite coatings by laser induction hybrid rapid cladding. Materials Science and Engineering A, 2008, 480:564-572. (SCI检索，IDS：301FH)
[9] Shengfeng Zhou, Xiaoyan Zeng, Qianwu Hu, Yongjun Huang. Analysis of crack behavior for Ni-based WC composite coatings by laser cladding and crack-free realization. Applied Surface Science, 2008, 255 (5): 1646-1653. (SCI检索，IDS：377TS)
[10] 魏民，万强，黄永俊. 熔覆电流对FeCoCrNiMn高熵合金涂层组织与性能的影响，表面技术，2019，48(6)，138-143.
[11] 孟亮，李雄，黄永俊，万强. 激光淬火及熔覆技术提高柑橘枝粉碎机65Mn钢锤片耐磨性，农业工程学报，2018，34（17）：54-60.
[12] 黄永俊，张国忠. 农机用65Mn预热处理后激光强化组织及性能，农业工程学报，2015，31（1）：53-57. (EI检索)
[13] 黄永俊，曾晓雁. 激光感应复合熔覆的界面形态及其作用，材料热处理学报，2009，30（2）：178-182. (EI检索)
[14] 黄永俊，曾晓雁. 激光感应复合熔覆中熔覆层有效能量分析，金属热处理，2008，33（5）:44-47. 
[15] 黄永俊，曾晓雁. 激光感应复合熔覆镍基涂层的裂纹研究，应用激光，2009，29（2）：111-115.
[16] 黄永俊，曾晓雁. 激光感应复合熔覆界面特性研究，应用激光，2007（6）：465-469. 
[17] 黄永俊，曾晓雁. 激光感应复合熔覆的稀释率分析模型及实验研究，应用光学，2008（2）:248-252. 
[18] 黄伟军，黄永俊. 激光熔凝强化45钢的组织与性能,热加工工艺，2017，46（8）：58-60
[19]黄永俊. 金属粉末流中激光透光率的分析模型，热加工工艺，2008，37（11）:83-85.