﻿ 激光熔覆数值模拟的应用及发展

# 激光熔覆数值模拟的应用及发展Application and Development of Numerical Simulation in Laser Cladding

Abstract:
The application of domestic and overseas numerical simulation technology in the study of temperature field of laser cladding was described in this paper. Several main factors that affect the numerical simulation were analyzed. The problems of the application of numerical simulation in temperature field of laser cladding were pointed out and the important development direction was presented on this basis.

[1] 楼凤娟 (2009) 激光熔覆的温度及应力分析和数值模拟. 浙江工业大学, 杭州, 29-37.

[2] 郭华峰, 熊永超, 李志 等 (2009) ANSYS在激光熔覆成形温度场数值模拟中的应用. 工具技术, 5, 73-76.

[3] Kar, A. and Mazumder, J. (1987) One-dimensionnal diffusion model for extended solid solution laser cladding. Applied Phys- ics, 61, 2645-2655.

[4] Weerasinghe, V.M. and Steen, W.M. (1983) Laser cladding by powder injection. In: Mazumder, J., Chen, M.M. and Tucher, C. Transport Phenomena in Materials Processing, ASME, New York, 15-23.

[5] Picasso, M. and Hoadley, A.F.A. (1994) Finite element simulation of laser surface treatments including convection in the melt pool. International Journal of Numerical Methods for Heat & Fluid Flow, 4, 61-83.

[6] 朱晨光, 孙耀宁, 于青激 (2012) 光熔覆温度场的数值模拟研究进展. 材料热处理技术, 8, 132-137.

[7] Ollier, B., Pirch, N. and Kreutz, E.W. (1996) Laser photons. 1, 8.

[8] Hoadley, A.F.A., et al. (1991) Heat-flow simulation of laser remelting with experimental validation. Metallurgical Transac- tions B, 22, 101-109.

[9] Guo, L.F., Yue, T.M. and Man, H.C. (2004) A finite element method approach for thermal analysis of laser cladding of mag- nesium alloy with preplaced Al-Si powder. Journal of Laser Ap- plications, 16, 229-235.

[10] Kou, S. and Sun, D.K. (1985) Fluid flow and penetration in stationary arc welds. Metallurgical Transactions A, 16, 203-213.

[11] 曾大文, 谢长生 (2002) 激光熔池三维非稳态对流传热过程的数值模拟. 激光技术, 2, 102-105.

[12] 黄延禄, 邹德宁, 等 (2003) 送粉激光熔覆过程中熔覆轨迹及流场与温度场的数值模拟. 稀有金属材料程, 5, 330-334.

[13] 凌毓涛, 姚远, 华超 (2004) 激光热处理温度场数值模拟及仿真研究. 机械, 6, 30-32.

[14] 席明哲, 虞钢 (2004) 连续移动三维瞬态激光熔池温度场数值模拟. 中国激光, 12, 1527-1532.

[15] 江世好, 黎向锋, 佐敦稳, 等 (2011) 基于预置压片的高温合金激光熔覆温度场仿真. 兵器材料科学, 4, 23-27.

[16] 赵洪运, 舒凤远, 张洪涛, 等 (2010) 基于生死单元的激光熔覆温度场数值模拟. 焊接学报, 5, 81-84.

[17] 杨洗陈, 栗丽, 张烨 (2009) 激光熔覆中同轴粉末流温度场的数值模拟. 光学学报, 11, 3114-3120.

[18] 王林林 (2007) 铝合金激光溶敷流场和温度的数值模拟. 华中科技大学, 武汉, 7-8.

[19] 张尔康 (2010) 耐热钢激光表面改性辐照过程温度场数值模拟. 沈阳工业大学, 沈阳, 18-22.

[20] 李健, 尹莉, 李文戈, 等 (2012) 激光反应熔覆碳化物陶瓷涂层温度场的有限元模拟. 机械工程材料, 6, 86-89.

[21] 单磊, 陈罡 (2008) 激光熔覆陶瓷热应力分析. 宁波工程学院学报, 2, 8-12.

[22] 顾建强, 骆芳, 姚建华 (2010) 激光熔覆过程残余应力的数值模拟. 激光与电子学进展, 10, 1-6.

[23] 姜秋月 (2011) 多到激光熔覆应力场的模拟. 材料热处理技术, 6, 124-127.

[24] 张宁 (2007) 铝合金激光熔覆金属基复合材料及数值模拟. 沈阳工业大学, 沈阳, 11-12.

Top