[1] Dubourg L, Archambeault J. Technological and scientific landscape of laser cladding process in 2007［J］. Surface & Coatings Technology, 2008, 202(24): 5863-5869.

[2] Muwala G, Karmakar D P, Nath A K. Online monitoring of thermo-cycles and its correlation with microstructure in laser cladding of nickel based super alloy［J］. Optics and Lasers in Engineering, 2017, 88: 139-152.

[3] Yi P, Liu Y C, Fan C F, et al. Impact analysis of the thermal mechanical coupling characteristics of graphite morphologies during laser cladding of gray cast iron［J］. Optics & Laser Technology, 2017, 90: 52-64.

[4] 黄卫东, 林鑫, 陈静, 等. 激光立体成形［M］. 西安: 西北工业大学出版社, 2007: 260-262.

    Huang Weidong, Lin Xin, Chen Jing, et al. Laser solid forming［M］. Xi′an: Northwestern Polytechnical University Press, 2007: 260-262.

[5] 杨健. 激光快速成形金属零件力学行为研究［D］. 西安: 西北工业大学, 2004: 45.

    Yang Jian. Research on mechanical behavior of laser rapid forming metal part［D］. Xi′an: Northwestern Polytechnical University, 2004: 45.

[6] 张凯, 刘婷婷, 张长东, 等. 基于熔池数据分析的激光选区熔化成形件翘曲变形行为研究［J］. 中国激光, 2015, 42(9): 0903007.

    Zhang Kai, Liu Tingting, Zhang Changdong, et al. Study on deformation behavior in selective laser melting based on the analysis of the melt pool data［J］. Chinese J Lasers, 2015, 42(9): 0903007.

[7] 罗明贤. 316L不锈钢粉末激光熔覆工艺热-力耦合数值模拟［D］. 秦皇岛: 燕山大学, 2011: 73-74.

    Luo Mingxian. Numerical simulation of thermal-mechanical behavior during laser cladding 316L stainless steel powder［D］. Qinhuangdao: Yanshan University, 2011: 73-74.

[8] Krzyzanowski M, Bajda S, Liu Y J, et al. 3D analysis of thermal and stress evolution during laser cladding of bioactive glass coatings［J］. Journal of the Mechanical Behavior of Biomedical Materials, 2016, 59: 404-417.

[9] 苏余鹏, 王秀凤, 陈光南, 等. 激光弯曲机理的评述［J］. 材料科学与工艺, 2004, 12(5): 543-545.

    Su Yupeng, Wang Xiufeng, Chen Guangnan, et al. Remark on laser bending mechanisms［J］. Material Science and Technology, 2004, 12(5): 543-545.

[10] 王维, 王兴良, 佟明, 等. 选择性激光烧结快速成形制件翘曲变形的研究［J］. 铸造技术, 2010, 4: 507-510.

    Wang Wei, Wang Xingliang, Tong Ming, et al. Warping distortion defect of selective laser sintering rapid prototyping work pieces［J］. Foundry Technology, 2010, 4: 507-510.

[11] 邓诗诗, 杨永强, 李阳, 等. 分区扫描路径规划及其对SLM成型件残余应力分布的影响［J］. 中国激光, 2016, 43(12): 1202003.

    Deng Shishi, Yang Yongqiang, Li Yang, et al. Planning of area-partition scanning path and its effect on residual stress of SLM molding parts［J］. Chinese J Lasers, 2016, 43(12): 1202003.

[12] 戴德平, 蒋小华, 蔡建鹏, 等. 激光熔覆Inconel718镍基合金温度场与应力场模拟［J］. 中国激光, 2015, 42(9): 0903005.

    Dai Deping, Jiang Xiaohua, Cai Jianpeng, et al. Numerical simulation of temperature field and stress distribution in Inconel718 Ni base alloy induced by laser cladding［J］. Chinese J Lasers, 2015, 42(9): 0903005.

[13] 方金祥, 董世运, 徐滨士, 等. 考虑固态相变的激光熔覆成形应力场有限元分析［J］. 中国激光, 2015, 42(5): 0503009.

    Fang Jinxiang, Dong Shiyun, Xu Binshi, et al. Study of stresses of laser metal deposition using FEM considering phase transformation effects［J］. Chinese J Lasers, 2015, 42(5): 0503009.

[14] 石力开, 高士友, 席明哲, 等. 金属直薄壁件激光直接沉积过程的有限元模拟Ⅰ. 沉积过程中温度场的模拟［J］. 金属学报, 2006, 42(5): 449-453.

    Shi Likai, Gao Shiyou, Xi Mingzhe, et al. Finite element simulation for laser direct depositing processes of metallic vertical thin wall partsⅠ. The simulation for temperature field during depositing processes［J］. Acta Metallurgica Sinica, 2006, 42(5): 449-453.

[15] 席明哲, 张永忠, 石力开, 等. 激光快速成形金属薄壁零件的三维瞬态温度场数值模拟［J］. 中国有色金属学报, 2003, 13(4): 887-892.

    Xi Mingzhe, Zhang Yongzhong, Shi Likai, et al. Numerical simulation of 3D transient temperature field in thin-wall metal parts fabricated by laser direct deposition［J］. The Chinese Journal of Nonferrous metals, 2003, 13(4): 887-892.

[16] 席明哲, 张永忠, 高士友, 等. 激光直接成形中薄壁零件瞬态温度场计算［C］. 北京: 2004中国材料研讨会, 2004: 474.

    Xi Mingzhe, Zhang Yongzhong, Gao Shiyou, et al. Calculation of transient temperature field of thin-walled parts during the process of laser direct forming［C］. Beijing: China Materials Seminar in 2004, 2004: 474.

[17] 宫新勇, 罗建国, 高士友, 等. 基于不同搭接率的激光熔覆温度场数值模拟研究［J］. 华北科技学院学报, 2015, 6: 83-88.

    Gong Xinyong, Luo Jianguo, Gao Shiyou, et al. Numerical simulation of temperature field in laser cladding for different overlap rate［J］. Journal of North China Institute of Science and Technology, 2015, 6: 83-88.

[18] 宫新勇, 由伟, 高士友, 等. 基于不同扫描路径的激光熔覆温度场数值模拟研究［J］. 华北科技学院学报, 2016, 5: 48-54.

    Gong Xinyong, You Wei, Gao Shiyou, et al. Numerical simulation of temperature field in laser cladding for different scanning path［J］. Journal of North China Institute of Science and Technology, 2016, 5: 48-54.