李萌蘖,昆明理工大学教授。分别于清华大学、北京航空材料研究所、美国俄勒冈科技研究生院获得本科、硕士与博士学位。现任昆明理工大学材料科学与工程学院教授、博士生导师,参与科技部材料基因工程关键技术与支撑平台重点研发计划“基于材料基因工程的传统制备加工工艺优化原理与方法”项目,主持“热处理过程材料性能预测及工艺优化”课题,2017年入选云南省云岭英才计划云岭高层次人才。
李萌蘖 博士 教授 Email:kmust_icme@163.com 昆明理工大学材料科学与工程学院 地址:云南省昆明市五华区学府路253号 邮编:650093 电话:0871-6510-9239 教育背景(Education) 1990.9 – 1995.12, Ph.D. Materials Science and Engineering, Oregon Graduate Institute of Science & Technology, Portland, Oregon, USA 1984.9 – 1987.2 工学硕士,金属材料与热处理,北京航空材料研究所 1979.9 – 1984.6 工学学士,焊接,清华大学 研究方向(Research Interests) 1.金属相变、微观组织与性能实验研究及数学建模 2.增材制造,高端装备制造 3.集成计算材料工程 工作经历(Work Experience) 2016.1 – 现在 昆明理工大学材料科学与工程学院 2012.1 – 2015.12 中国第一重型机械股份公司,能源装备材料科学研究所 副所长 2001.11 – 2011.12 Portland State University, Research Associate Professor 1998.12 – 2001.10 Edison Welding Institute, Senior Engineer 1996.1 – 1998.10 Battelle Memorial Institute, Research Scientist 1990.9 – 1995.12 Oregon Graduate Institute of Science & Technology, Research Assistant 1987.2 – 1990.8 北京航空材料研究所,工程师 发表文章 1.X. Zhang, X. Song, L. Zhu and M. V. Li, “Measurement and Prediction of Residual Stresses in Heat Treated Large Forgings”, Proceedings of 5th International Conference on Thermal Process Modeling and Computer Simulation, June 2014, Orlando, FL, USA. 2.X. Yao, L. Zhu, and M. V. Li, “A Fully Coupled Material Constitutive Model for Steel Quench Analysis,” International Journal of Microstructure and Materials Properties, vol. 5(6), 2010, pp. 501-523. 3.J. A. Penso and M. V. Li, “Experiences with Controlled Deposition Welding and Fitness for Service in Coke Drums,” ASME Pressure Vessels Piping Division, Publication PVP 2009-77853, ASME, Prague, Czech Republic, 2009, 10P. 4.L. Zhu, S. Bachani, R. Nordstrom, M. V. Li, and J. Devletian, “Modeling and Analysis of a New Solidification Cracking Test,” Proceedings of 7th International Conference on Trends in Welding Research, May 16-20, 2005, Pine Mountain, GA. 5.X. Yao, L. Zhu, and M. V. Li, “Finite Element Analysis of Residual Stress and Distortion in an Eccentric Ring Induced by Quenching,” Proceedings of 14th Congress of International Federation of Heat Treatment and Surface Engineering, October 25-28, 2004, Shanghai, China, pp. 746-751. 6.M. V. Li and G. E. Totten, “Computational Modeling of Quenching and Distortion,” Proceedings of 4th International Conference on Quenching and Control of Distortion, Nov. 23-25, 2003, Beijing, China, pp. 81-86. 7.M. V. Li and D. Kim, “Prediction of Microstructure Evolution and Hardness Distribution in the Weld Repair of Carbon Steel Pipeline,” Proceedings of International Welding/Joining Conference – Korea 2002 on Intelligent Technology in Welding and Joining for the 21st Century (in CD Rom), Oct. 28-30, 2002, Gyeongju, Korea. 8.M. V. Li and L. Meekisho, “Prediction of Microstructure Evolution and Hardness Distribution in Water-Quenched Steel Components,” Proceedings of International Conference on Computational Engineering and Sciences, July 31 to August 2, 2002, Reno, Nevada. 9.B. H. Chang, M.V. Li, and Y. Zhou, “Comparative Study on Small-Scale and Large-Scale Resistance Spot Welding,” Science and Technology of Welding and Joining, vol. 6(5), 2001, pp. 273-280. 10.M. V. Li and M. Kimchi, “Modeling of Resistance Spot Welding of High-Strength Steel,” Proceedings of Sheet Metal Welding Conference IX Oct. 2000, Detroit, Michigan, USA, Paper 5-2. 11.M. V. Li, M. Kimchi, and Z. Feng, “Analysis of Resistance Spot Welding High Strength Steels,” Proceedings of SEM Annual Conference on Theoretical, Experimental and Computational Mechanics, Cincinnati, Ohio, June 7-9, 1999, pp. 850-852 12.J. Yang, W. E. Wood, J. Dehaven and M. Li, “Bainite Transformation Kinetics in High Strength Steels,” Proceedings of 18th Conference on Heat Treating, October 12-15, 1998, pp. 476-483. 13.M. V. Li, P. Dong, and M. Kimchi, “Analysis of Microstructure Evolution and Residual stress Development in Resistance Spot Welds of High Strength Steels,” Proceedings of International Sheet Metal Welding Conference VIII, Detroit, Michigan, October 13-16, 1998 14.M. V. Li, P. Dong and M. Kimchi, “Modeling and Analysis of Microstructure Development in Resistance Spot Welds of High Strength Steels,” Proceedings of International Body Engineering Conference and Exposition, Detroit, Michigan, Sept. 29 to Oct. 1, 1998, vol. 5, pp. 59-64. (SAE Paper 982278) 15.M. V. Li, P. Dong and M. Kimchi, “Computational Modeling of Heat Transfer and Microstructure Development in Resistance Spot Welds of HSLA Steels“. Proceedings of 5th International Conference on Trends in Welding Research, eds. J. M. Vitek, S. A. David, J. A. Johnson, H. B. Smartt, and T. DebRoy, June 1-5, 1998, Pin Mountain, TN, pp. 155-160. 16.M. V. Li, D. Niebuhr, L. Meekisho, and D. Atteridge, “A Computational Model for the Prediction of Steel Hardenability,” Metallurgical and Materials Transactions B, vol. 29B, no. 3. 1998, pp. 661-672. 17.P. Dong, M. V. Li, and M. Kimchi, “Finite Element Analysis of Electrode Wear Mechanisms: Face Extrusion and Pitting Effects,” Science and Technology of Welding and Joining, vol. 3, no. 2, 1998, pp. 59-64. 18.P. Dong, J. M. Zhang, and M. V. Li, “Computational Modeling of Weld Residual Stresses and Distortions – an Integrated Framework and Industrial Applications,” ASME Pressure Vessels Piping Division, Publication PVP, ASME, Fairfield, NJ, 1998, vol. 373, pp. 311-335.D 19.M. V. Li, P. Dong, and M. Kimchi, “A Contact Resistance Model for Resistance Spot Welding Processes: Theory and Implementation,” High-Productivity Joining Processes, Proceedings of ICAWT’97 International Conference on Advances in Welding Technology, Columbus, Ohio, Sept. 17-19, 1997, pp. 357-369. 20.M. V. Li, L. Meekisho, and D. G. Atteridge, “Computational Modeling of Microstructure Evolution in Weld Heat Affected Zone of Low Alloy Steel,” Proceedings of 7th International Conference Computer Technology in Welding, ed. T. Siewert, July 8-11, 1997, San Francisco, CA, pp. 330-341. 21.M. V. Li, P. Dong and M. Kimchi, “Finite Element Analysis of Resistance Spot Welding of Galvanized Steels,” Proceedings of 7th International Conference Computer Technology in Welding, ed. T. Siewert, July 8-11, 1997, San Francisco, CA, pp. 389-398. 22.M. V. Li, P. Dong and M. Kimchi, “Modeling of Contact Resistance during Resistance Spot Welding,” Proceedings of 7th International Conference Computer Technology in Welding, ed. T. Siewert, July 8-11, 1997, San Francisco, CA, pp. 423-435. 23.M. V. Li, D. Niebuhr, D. Atteridge, and L. Meekisho, “Computing Jominy Hardness Curves of Steels,” Proceedings of the International Symposium on Phase Transformations during the Thermal/Mechanical Processing of Steel – Honoring Professor Jack Kirkaldy, Vancouver, British Columbia, August 20-24, 1995, pp. 485-501. 24.M. V. Li, D. G. Atteridge, and L. Meekisho, “Optimizing Electroslag Cladding with Finite Element Modeling,” Proceedings of 4th International Conference on Trends in Welding Research, eds. H. B. Smartt, J. A. Johnson, and S. A. David, June 5-8, 1995, Gatlinburg, TN, pp. 429-434. 25.M. V. Li, D. G. Atteridge, and L. Meekisho, “Mathematical Modeling of Microstructure Evolution in the Heat Affected Zone of Electroslag Cladding,” Proceedings of 4th International Conference on Trends in Welding Research, eds. H. B. Smartt, J. A. Johnson, and S. A. David, June 5-8, 1995, Gatlinburg, TN, pp. 283-288. 26.M. V. Li, Atteridge, G., Dikshit, V., and Meekisho, L, “Finite Element Analysis of Electroslag Cladding,” Proceedings of International Conference on Modeling and Control of Joining Processes, ed. T. Zacharia, Dec. 8-10, 1993, Orlando, FL, pp. 541-546. 27.候玉年, 郝俊明, 李萌蘖. 钛合金的摩擦焊接工艺研究[C]. 第四届全国电子工业焊接学术会议论文集, 1992, 234-236. 28.李萌蘖, 候玉年, 张维琴, 张琪. GH536 镍基高温合金板材焊接性研究[J]. 航空材料学报, 1989, 9(2): 48-55. 29.李萌蘖, 候玉年. 热模拟技术在研究焊接热裂纹方面的应用[J]. 航空材料学报, 1989, 9(3): 52-59.
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