激光熔覆熔池温度监测与控制系统的研究现状
[1] 刘珍峰, 李正佳. 激光熔覆技术在航空工业中的应用[J]. 航空精密制造技术, 2007, 43(1): 37-40.
Liu Zhenfeng, Li Zhengjia. Application of laser cladding in aviation industry[J]. Aviation Precision Manufacturing Technology, 2007, 43(1): 37-40.
[2] 蔡军, 梁海峰, 刘国林. 汽车大型覆盖件模具激光表面强化技术的应用[J]. 装备制造技术, 2008, (7): 25-26.
Cai Jun, Liang Haifeng, Liu Guolin. The laser surface strengthening technology application of automobile large-scale cover mold[J]. Equipment Manufacturing Technology, 2008, (7): 25-26.
[3] Koch J L, Maumder J. Rapid prototyping by laser cladding[C]. SPIE, 1993, 2306: 556-562.
[4] 沈治.激光熔覆加工中加工温度自适应控制研究[J]. 机床与液压, 2011, 39(22): 118-120.
Shen Zhi. Research on adaptive control to processing temperature in laser cladding process[J]. Machine Tool & Hydraulics, 2011, 39(22): 118-120.
[5] 王明娣, 刘秀波, 郭开波, 等. 激光熔覆成形件的应力分析与裂纹控制[C]. 第14届全国特种加工学术会议论文集, 2011. 494-497.
Wang Mingdi, Liu Xiubo, Guo Kaibo, et al.. Stress analysis and crack control of laser cladding forming[C]. The 14th National Special Processing Academic Conference Proceedings, 2011. 494-497.
[6] 孙会来, 赵方方, 林树忠, 等. 激光熔覆研究现状与发展趋势[J]. 激光杂志, 2008, 29(1): 4-6.
[7] Swift-Hook D T, Gick A E F. Penetration welding with lasers[J]. Welding Journal, 1973, 52(suppl.): 492-499.
[8] 李延民, 刘振侠, 杨海欧, 等. 激光多层涂敷过程中的温度场测量与数值模拟[J]. 金属学报, 2003, 39(5): 521-525.
Li Yanmin, Liu Zhenxia, Yang Haiou, et al.. Measurement and simulation of temperature field during multi-layer laser cladding[J]. Acta Metallurgica Sinica, 2003, 39(5): 521-525.
[9] M L Griffith, M E Schlienger, L D Harwell, et al.. Understanding thermal behavior in the LENS process[J]. Materials and Design,1999, 20(1-2): 107-113.
[10] Y P Hu, C W Chen, K Mukherjee. Measurement of temperature distributions during laser cladding Process[J]. J Laser Applications, 2000, 12(3): 126-130.
[11] 谭华. 激光快速成型过程及组织控制研究[D]. 西安: 西北工业大学, 2005. 38-57.
Tan Hua. Temperature Measurement and Research on Microstructure Controlling in Laser Rapid Forming[D]. Xi′an: Northwestern Polytechnical University, 2005. 38-57.
[12] 陈钟. 激光熔覆熔池温度的测量[D]. 苏州: 苏州大学, 2006. 31-48.
Chen Zhong. Temperature Measurement of Motlen Pool in Laser Cladding Process[D]. Suzhou: Soochow University, 2006. 31-48.
[13] 宁国庆, 钟敏霖, 杨林, 等. 激光直接制造金属零件过程的闭环控制研究[J]. 应用激光, 2002, 22(2): 172-176.
Ning Guoqing, Zhong Minlin, Yang Lin, et al.. Research about close-loop control system during laser direct manufacturing metallic components[J]. Applied Laser, 2002, 22(2): 172-176.
[14] 周广才, 孙康锴, 邓琦林. 激光熔覆中的控制问题[J]. 电加工与模具, 2004, (2): 39-43.
Zhou Guangcai, Sun Kangkai, Deng Qilin. The processing control of laser cladding[J]. Electroma-Chining & Mould, 2004, (2): 39-43.
[15] D P Hand, M D T Fox, F M Haran, et al.. Optical focus control system for laser welding and direct casting[J]. Opt Laser Eng, 2000, 34(4-6): 415-427.
[16] J Lin, W M Steen. An in-process method for the inverse estimation of the powder catchment efficiency during laser cladding[J]. Opt Laser Technol, 1998, 30(2): 77-84.
[17] Shoujin Sun, Yvonne Durandet, Milan Brandt. Correlation between melt pool temperature and clad formation in pulsed and continuous wave NdYAG laser cladding of satellite 6[C]. Proceedings of the 1st Pacific Internation Conference on Application of Lasers and Optics, 2004. 7-12.
[18] 姜淑娟, 刘伟军. 利用图像比色法进行激光熔池温度场实时检测的研究[J]. 信息与控制, 2008, 37(6): 747-751.
Jiang Shujuan, Liu Weijun. Study on real-time measurement for laser molten pool temperature field by images colorimetric method[J]. Information and Control, 2008, 37(6): 747-751.
[19] 雷剑波, 杨洗陈, 王云山, 等. 激光再制造熔池温度场检测与控制方案研究[J]. 天津工业大学学报, 2003, 22(5): 56-58.
Lei Jianbo, Yang Xichen, Wang Yunshan, et al.. Research on model of measuring and controlling temperrature fields of molten pool in laser remanufacturing[J]. J Tianjin Polytechnic University, 2003, 22(5): 56-58.
[20] 雷剑波, 杨洗陈, 陈娟, 等. 激光熔池CCD测温系统的软件设计研究[J]. 应用激光, 2007, 27(1): 5-8.
[21] 于栋, 钟敏霖, 刘文今, 等. 激光熔覆过程中熔池图像的实时检测[J]. 中国激光, 2007, 34(s1): 86-90.
[22] 王宇宁. 激光熔池温度场检测技术研究[D]. 沈阳: 沈阳工业大学, 2006. 25-34.
Wang Yuning. The Research About the Detecting Technology of Laser Pool Temperature Field[D]. Shenyang: Shenyang University of Technology, 2006. 25-34.
[23] 郁玲玲. 基于高速CCD的激光熔池温度检测软件开发[D]. 苏州: 苏州大学, 2009. 50-59.
Yu Lingling. Temperature Detection Software Development of Laser Molten Pool Based on High-Speed CCD[D]. Suzhou: Soochow University, 2009. 50-59.
[24] Marius Jurca, Hans-Jurgen Langer. Temperature field measurement as quality assurance measure in case of laser material processing[J]. Physics Procedia, 2010, 5(B): 473-481.
[25] B Grnenwald, S Nowotny, W Henning, et al.. New technological development in laser cladding[C]. SPIE, 1993, 2306: 934-944.
[26] L Li, W M Steen, P Modern. Melt pool behaviour monitoring and adoptive control of laser surface treatment through machine vision[C]. SPIE, 1993, 2306: 372-381.
[27] J Mazumder, D Dutta, N Kikuchi, et al.. Closed loop direct metal deposition: art to part[J]. Opt Laser Eng, 2000, 34(4-6): 397-414.
[28] Guijun Bi, Andres Gasserb, Konrad Wissenbach, et al.. Identification and qualification of temperature signal for monitoring and control in laser cladding[J]. Opt Laser Eng, 2006, 44(12): 1348-1359.
[29] D Salehi, M Brandt. Melt pool temperature control using LabView in NdYAG laser blown powder cladding process[J]. Int J Adv Manuf Technol, 2006, 29(3-4): 273-278.
[30] 姜淑娟, 刘伟军. 金属粉末激光成形过程中的熔池温度场[J]. 仪器仪表学报, 2007, 28(4): 5-8
Jiang Shujuan, Liu Weijun. Research on the temperature measuring and control of the molten pool in the metal powder laser shaping process[J]. Chinese J Scientific Instrument, 2007, 28(4): 5-8.
胡晓冬, 于成松, 姚建华. 激光熔覆熔池温度监测与控制系统的研究现状[J]. 激光与光电子学进展, 2013, 50(12): 120003. Hu Xiaodong, Yu Chengsong, Yao Jianhua. Reviewof Laser Cladding Molten Pool Temperature Measurement and Control System[J]. Laser & Optoelectronics Progress, 2013, 50(12): 120003.