艾岳巍
近期热点
资料介绍
个人简历
教育经历\r美国普渡大学(Purdue University)激光加工中心,访问学者\r华中科技大学,机械与科学工程学院,博士\r重庆大学,机械工程学院,硕士\r\r工作经历\r副教授,中南大学,交通运输工程学院\r研究助理,美国普渡大学(Purdue University),工学院\r\r科研项目\r国家自然基金面上项目—电磁多热场耦合下高速激光整形焊接关键技术研究,58万,主持人\r自然基金青年项目—铝合金激光高速焊接熔池小孔动力学特征对焊缝成形质量的影响机制研究,主持人\r中央高校基本科研业务费专项基金—激光加工质量评估方法研究,80万,主持人\r国家自然基金重点专项目—大型复杂结构件高功率激光焊接的基础研究,300万,项目执行负责人\r国家重点基础研究发展计划—激光-电弧-磁场复合作用下大型厚壁构件成形成性原理,500万,参与人\r国家自然基金国际合作项目—面向低碳制造的激光加工工艺及系统优化基础理论与关键技术,300万,参与人\r创新交叉重点团队基金项目—厚壁构件窄间隙大功率激光焊接关键技术与装备,100万,主研人\r国家自然基金创新研究群体项目—高性能数字制造装备的基础研究,525万,参与人\r国际合作项目—微电子器件激光封装关键技术研究,主持人\r国际合作项目—激光焊接与粉末增材制造熔融金属动力学特性分析,主持人\r\r主讲课程\r英语科技论文写作(研究生课程)\r涡轮机械(留学生课程 英文)\r车辆修造工艺与装备(专业核心课程)\r轨道交通设备智能维护\r轨道交通概论\r系统安全与可靠性理论\r\r专利\r[1] 艾岳巍, 蒋平, 邵新宇, 李培根等. 一种钢板对接焊间隙调整装置. 中国发明专利. 专利号:201611243178.4.\r[2] 蒋平, 刘卫,邵新宇, 艾岳巍等. 一种焊接保护气导气管调节装置及其应用. 中国发明专利. 专利号:201611119604.3.\r[3] 艾岳巍; 杨岳; 刘肖影; 黄义; 余龙; 一种焊接角度调整装置. 中国发明专利. 专利号:201911266476.9.\r[4] 艾岳巍; 黄义; 余龙; 刘肖影; 一种用于焊接过程监测平台光谱仪位置调节跟踪装置. 中国发明专利. 专利号:201911421404.7.\r[5] 何彦, 刘耕, 鄢萍, 陈鹏文, 艾岳巍等. 一种数控机床排屑系统按需节能运行控制方法及系统. 中国发明专利. 专利号:201310162685.5.\r\r国际学术交流\r[1] 2021年受美国激光学会(Laser Institute of America)邀请在第40届激光光学应用国际学术会议(ICALEO 2021)上做报告;\r[2] 2021年受焊接分会邀请在青年工作者第四届学术研讨会上做报告;\r[3] 2020年受美国激光学会(Laser Institute of America)邀请在第39届激光光学应用国际学术会议(ICALEO 2020)上做报告;\r[4] 2019年受美国激光学会(Laser Institute of America)邀请赴美国奥兰多在第38届激光光学应用国际学术会议(ICALEO 2019)上做报告;\r[5] 2017年受美国普渡大学激光加工中心(CLM)邀请交流会上做报告;\r[6] 2016年受美国普渡大学激光加工中心(CLM)邀请交流会上做报告;\r[7] 2016年受国际焊接学会(IIW)邀请赴澳大利亚墨尔本在第69届国际焊接年会与国际会议(IIW 2016)上做报告;\r[8] 2015年受美国激光学会(Laser Institute of America)邀请赴美国亚特兰大在第34届激光光学应用国际学术会议(ICALEO 2015)上做报告。\r\r学术兼职\r国际期刊American Journal of Mechanical and Materials Engineering (AJMME)编委;\r第18届数值分析与应用数学国际会议(The 18th International Conference on Numerical Analysis and Applied Mathematics, ICNAAM 2020)激光材料加工模拟仿真主题会组织者;\r第17届数值分析与应用数学国际会议(The 17th International Conference on Numerical Analysis and Applied Mathematics, ICNAAM 2019)激光材料加工模拟仿真主题会组织者;\r第16届数值分析与应用数学国际会议(The 16th International Conference on Numerical Analysis and Applied Mathematics, ICNAAM 2018)激光材料加工模拟仿真主题会组织者;\r第15届数值分析与应用数学国际会议(The 15th International Conference on Numerical Analysis and Applied Mathematics, ICNAAM 2017)激光材料加工模拟仿真主题会组织者; \r第3届材料加工与机械制造工程国际学术会议(MPMME 2017)组委会委员,AEIC专家库核心成员\r\r相关研究领域著名SCI期刊特邀审稿人: \r《Journal of Materials Science & Technology》(SCI Q1,IF 8.067)审稿人;\r《Materials & Design》(SCI Q1,IF 7.991)审稿人;\r《Applied Thermal Engineering》(SCI Q1,IF 5.295)审稿人;\r《International Journal of Heat and Mass Transfer》(SCI Q1,IF 5.584)审稿人;\r《Journal of Intelligent Manufacturing》(SCI Q1,IF 6.485)审稿人;\r《Journal of Manufacturing Processes》(SCI Q1,IF 5.01)审稿人;\r《Optics and Lasers in Engineering》(SCI Q1,IF 4.836)审稿人;\r《Ocean Engineering》(SCI Q1,IF 3.795)审稿人;\r《Optik》(SCI Q2,IF 2.446)审稿人;\r《Journal of Laser Application》(SCI Q2,IF 1.636)审稿人。研究领域
""轨道交通装备智能化\r激光增材制造与焊接\r激光加工多相流仿真模拟\r激光智能焊接与质量评估""""近期论文
Yuewei Ai, Yi Huang, Long Yu, et al. The Investigation of microstructure evolution in the electron beam additive manufacturing by phase field method [J]. Journal of Laser Applications, 2021.\r\rYuewei Ai, Xiaoying Liu, Yi Huang, et al. Investigation of dissimilar fiber laser welding of low carbon steel and stainless steel by numerical simulation [J]. Journal of Laser Applications, 2021, 32: 1-6.\r\rYuewei Ai, Xiaoying Liu, Yi Huang, et al. Numerical analysis of the influence of molten pool instability on the weld formation during the high speed fiber laser welding[J]. International Journal of Heat and Mass Transfer, 2020, 160: 1-8. (SCI Q1,IF 5.584,Top期刊)\r\rYuewei Ai, Ping Jiang, Xinyu Shao, Chunming Wang, Peigen Li, et al. A defect-responsive optimization method for the fiber laser butt welding of dissimilar materials[J]. Materials & Design, 2016, 90: 669-681. (SCI Q1,IF 7.991,Top期刊)\r\rYuewei Ai, Jiang Ping, Shao Xinyu, Peigen Li, et al. The prediction of the whole weld in fiber laser keyhole welding based on numerical simulation[J]. Applied Thermal Engineering, 2017, 113: 980-993. (SCI Q1,IF 5.295,Top期刊)\r\rYuewei Ai, Ping Jiang, Chunming Wang, et al. Experimental and numerical analysis of molten pool and keyhole profile during high-power deep-penetration laser welding [J]. International Journal of Heat and Mass Transfer, 2018, 126:779-789. (SCI Q1,IF 5.584,Top期刊)\r\rYuewei Ai, Ping Jiang, Chunming Wang, et al. Investigation of the humping formation in the high power and high speed laser welding [J]. Optics and Lasers in Engineering, 2018, 107: 102-111. (SCI Q1,IF 4.836)\r\rYuewei Ai, Xinyu Shao, Ping Jiang, Peigen Li, et al. Welded joints integrity analysis and optimization for fiber laser welding of dissimilar materials[J]. Optics and Lasers in Engineering, 2016, 86: 62-74. (SCI Q1,IF 4.836)\r\rYuewei Ai, Jiang Ping, Shao Xinyu, Peigen Li, et al. A three-dimensional numerical simulation model for weld characteristics analysis in fiber laser keyhole welding[J]. International Journal of Heat and Mass Transfer, 2017, 108: 614-626. (SCI Q1,IF 5.584)\r\rYuewei Ai, Jianzhuang Wang, Ping Jiang, et al. Parameters optimization and objective trend analysis for fiber laser keyhole welding based on Taguchi-FEA[J]. The International Journal of Advanced Manufacturing Technology, 2017, 90(5): 1419-1432. (SCI Q2,IF 3.326)\r\rYuewei Ai, Zheng Kang, Yung C Shin, et al. Analysis of weld geometry and liquid flow in laser transmission welding between polyethylene terephthalate (PET) and Ti6Al4V based on numerical simulation[J]. Optics & Laser Technology, 2018, 103: 99-108. (SCI Q2,IF 3.867)\r\rYuewei Ai, Xinyu Shao, Ping Jiang, Peigen Li, et al. Process modeling and parameter optimization using radial basis function neural network and genetic algorithm for laser welding of dissimilar materials [J]. Applied Physics A, 2015, 121(2): 555-569. (SCI Q2,IF 2.584)\r\rYuewei Ai, Ping Jiang, Xinyu Shao, Chunming Wang, Peigen Li, et al. An optimization method for defects reduction in fiber laser keyhole welding[J]. Applied Physics A, 2016, 122(1): 31. (SCI Q2,IF 2.584)\r\rYuewei Ai, Xinyu Shao, Ping Jiang, Peigen Li, et al. Prediction of weld bead for fiber laser keyhole welding based on FEA [C]. The 34th congress on applications of lasers & electro-optics (ICALEO 2015), 2015.\r\rYuewei Ai, Xinyu Shao, Ping Jiang, Peigen Li, et al. Modeling and simulation of full size weld for fiber laser keyhole welding [C]. The 69th IIW Annual Assembly and International Conference (IIW 2016), 2016.\r\rWei Liu, Yuewei Ai, Ping Jiang, et al. Simulation and modeling of shielding gas on the welding defects in the fiber laser keyhole welding [C]. The 3rd International Conference on Materials Science and Mechanical Engineering (ICMSME 2016), 2016.\r\rYang Liu, Ping Jiang, Yuewei Ai, et al. Prediction of weld shape for fiber laser welding based on hybrid heat source model [C]. The 3rd International Conference on Material, Mechanical and Manufacturing Engineering (IC3ME 2015), 2015.\r\rShaoning Geng, Ping Jiang, Yuewei Ai, et al. Cellular automaton modeling for dendritic growth during laser beam welding solidification process [J]. Journal of Laser Applications, 2018, 30(3): 032406. (SCI Q3, IF 1.636)\r\rShaoning Geng, Ping Jiang, Xinyu Shao, Gaoyang Mi, Han Wu, Yuewei Ai, Chunming Wang, et al. Effects of back-diffusion on solidification cracking susceptibility of Al-Mg alloys during welding: A phase-field study [J]. Acta Materialia, 2018, 160: 85-96. ( SCI Q1,IF 8.203,Top期刊)\r\rShaoning Geng, Ping Jiang, Xinyu Shao, Gaoyang Mi, Han Wu, Yuewei Ai, Chunming Wang, et al. Comparison of solidification cracking susceptibility between Al-Mg and Al-Cu alloys during welding: A phase-field study [J]. Scripta Materialia, 2018, 150: 120-124. (SCI Q1,IF 5.611,Top期刊)\r 相关热点
最新收录
- 千奈美(ちなみん) 06-25
- 皆川琉衣(皆川るい) 06-25
- 凪光(凪ひかる) 06-25
- 织本濑里乃(織本せりの 06-25
- 冈本莉里 岡本莉里 (おか 06-25
- 凯蒂·佩里(水果姐) 06-25
- 吉高宁宁(吉高寧々 Nene 06-25
- 水咲优美(水咲優美) 06-25
- 三月光(三月ひかる) 06-21
- 澪川遥(澪川はるか) 06-21