[1]WENG F, CHEN C Z, YU H J. Research Status of Laser Cladding on Titanium and Its Alloys:a Review[J]. Materials & Design, 2014, 58:412-425.
[2]KUSINSKI J, KAC S, KOPIA A, et al.Laser Modification of the Materials Surface Layer-a Review Paper[J]. Bulletin of the Polish Academy of Sciences—Technical Sciences, 2012, 60(4):711-728.
[3]YAN Zhaorui, LIU Weiwei, TANG Zijue, et al. Effect of Thermal Characteristics on Distortion in Laser Cladding of AISI 316L[J]. Journal of Manufacturing Process, 2019, 44:39-318.
[4]ZHU Gangxian, LI Dichen, ZHANG Anfeng, et al. The Influence of Laser and Powder Defocusing Characteristics on the Surface Quality in Laser Direct Metal Deposition[J]. Optics & Laser Techno-logy, 2012, 44(2):349-356.
[5]WANG Tao, QIN Lingchao, LIUI Jiaqi. Parameter Analysis of Thermal Behavior during Laser Melting of Ti-6Al-4V Alloy Powder[J]. International Journal of Advanced Manufacturing Technology, 2019, 104(5/8):2875-2885.
[6]李亚敏, 咬登治, 范福杰. 激光熔覆718合金工艺参数优化的数值模拟研究[J]. 应用激光, 2018, 38(6):920-926.
LI Yamin,YAO Dengzhi, FAN Fujie. Numerical Simulation Study on Process Parameters Optimization of 718 Alloy Induced by Laser Cladding[J]. Applied Laser, 2018, 38(6):920-926.
[7]田美玲. 光内送粉多道搭接多层堆积实体成形及温度场模拟研究[D]. 苏州:苏州大学, 2014.
TIAN Meiling. Temperature Field Simulation of Multi-channel and Multi-layer Stacking and Research of Solid Parts Forming Process Based on Coaxial Inside-beam Powder Feeding[D]. Suzhou:Soochow University, 2014.
[8]史建军. 激光内悬垂结构熔覆成形机理研究[D]. 苏州:苏州大学, 2019.
SHI Jianjun. Mechanism Study of Non-supportive Overhang Part by Hollow Laser Cladding Forming[D]. Suzhou:Soochow University, 2019.
[9]余淑荣, 樊丁, 熊进辉, 等. 铝合金不等厚板的CO2激光拼焊及数值模拟[J]. 中国激光, 2008(11):1795-1800.
YU Shurong, FAN Ding, XIONG Jinhui, et al.CO2 Laser Welding of Tailored Aluminum Alloy Sheets with Different Thickness and Numerical Simulation[J]. Chinese Lasers, 2008, 35(11):1795-1800.
[10]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):139-146.
FANG Jinxiang, DONG Shiyun, XU Binshi, et al. Study of Stresses of Laser Metal Deposition Using FEM Considering Phase Transformation Effects[J]. Chinese Journal of Lasers, 2015, 42(5):139-146.
[11]谭真, 郭光文. 工程合金热物理性[M]. 北京:冶金工业出版社, 1994.
TAN Zhen, GUO Guangwen. Thermal Properties of Engineering Alloys[M]. Beijing:Metallurgical Industry Press, 1944.
[12]JIANG W, YAHIAOUI K, HALL F R. Finite Element Predictions of Temperature Distributions in a Multi-pass Welded Piping Branch Junction[J]. Journal of Pressure Vessel, 2005, 127(1):7-12.
[13]王新堂, 张金一, DU Yingang. 00Cr17Ni14Mo2不锈钢高温力学性能[J]. 建筑材料学报, 2015, 18(5):767-772.
WANG Xintang, ZHANG Jinyi, DU Yingang. High Temperature Mechanical Properties of 00Cr17Ni14Mo2 Stainless Steel[J]. Journal of Building Materials, 2015, 18(5):767-772.
[14]黄卫东. 激光立体成形-高性能致密金属零件的快速自由成形[M]. 西安:西北工业大学出版社, 2007.
HUANG Weidong. Laser Solid Forming-rapid Free Forming of High Performance Compact Metal Parts[M]. Xi’an:Northwest University of Technology Press, 2007. |