姓名: 罗键 职称:教授,博士生导师
指导研究方向:增材制造(3D打印)、复合加工理论与技术
通讯地址:上海市龙腾路333号
电子邮箱:luojian_cn_2005@163.com
联系电话:021-67791474
教育经历:
西北工业大学,学士、硕士
西安交通大学,博士
工作经历:
澳门新匍新京5885教授
福州大学教授
重庆大学教授
武汉理工大学教授
法国、奥地利、日本、美国重点实验室研究员
上海交通大学博士后研究员
研究方向:
金属增材制造理论与3D打印技术
先进复合加工制造理论与机器人焊接技术
先进固相焊接(搅拌/径向/轴向摩擦焊接)理论与技术
现代高能束加工理论与技术
焊接结构腐蚀与防腐理论与工程应用
研究情况:
主持完成省部部级以上纵向课题40余项,经费超过千万元,获得省部级科学技术奖励3项。在本领域《Welding Journal》等国内外权威期刊发表被SCI、EI收录论文100余篇,他引超过千余篇,特邀报告10余篇,授权国家发明专利40余项。
学术/社会兼职:
上海市和福建省二级教授,教育部新世纪优秀人才,福建省闽江学者,重庆市高等学校优秀人才、湖北省杰青,教育部学位论文通讯评审专家,中国焊接学会委员,曾任机械传动国家重点实验室研究员。
论文信息:
[1].GQ Han, T Wu, LY Lv, HD Li, H Lin , CY Li, J Luo. Super-resolution AFM imaging based on enhanced convolutional neural network. Nano, 2021,16(12): 2150147.
[2].JJ Gao, J Luo, HB Geng, K Cui, ZL Zhao, L Liu. Morphologies, Young’s modulus and resistivity of high aspect ratio tungsten nanowires.Materials,2020, 13(17):3749
[3].HB Geng, J Luo, JL Li, JJ Gao, X Lin. Thermal boundary evolution of molten pool during wire and arc additive manufacturing of single walls of 5A06 aluminum alloy. Metals, 2020, 10(7):848.
[4].JJ Gao, J Luo, HB Geng, JH Zhong, GQ Han, K Cui, ZL Zhao, Liu. Coral-flake Co particles electrodeposited into the porous NiAl matrix. Materials Chemistry and Physics, 2020, 244(4):122594.
[5]. Luo Jian,Liu Shanshan,Chen Wei,Xu Xiaoling. Friction interface migration of copper alloy and carbon steel dissimilar metal joints in inertia radial friction welding. Materials and Manufacturing Processes,2016,31(3):275-282.
[6]. Jian, Luo,Zongxiang, Yao,Keliang, Xue,Anti-gravity gradient unique arc behavior in the longitudinal electric magnetic field hybrid tungsten inert gas arc welding,The International Journal of Advanced Manufacturing Technology,2015, 78(9):1-15.
[7]. Luo Jian,Li Shixian,Chen Wei,Xiang Junfeng,Wang Hong. Simulation of aluminum alloy flowing in friction stir welding with a multiphysics field model. International Journal of Advanced Manufacturing Technology,2015,81(1-4):349-360.
[8]. Luo Jian, Wang Hong, Chen Wei, Li Longfei. Study on anti-wear property of 3D printed-tools in friction stir welding by numerical and physical experiments. International Journal of Advanced Manufacturing Technology, 2014, 77(9) :1781-1791.
[9]. Jian Luo, Wei Chen, Gen Fu. Hybrid-heat effects on electrical-current aided friction stir welding of steel, and Al and Mg alloys. Journal of Materials Processing Technology, 2014, 214(12): 3002-3012.
[10]. Luo Jian, Li Longfei, Dong Yalin, Xu Xiaoling. A new current hybrid inertia friction welding for nickel-base superalloy K418 / alloy steel 42CrMo dissimilar metals. International Journal of Advanced Manufacturing Technology, 2014, 70(9-12): 1673-1681.
[11]. Luo Jian, Dong Yalin, Li longfei, Wang Xiaoming. Microstructure of 2205 duplex stainless steel joint in submerged arc welding by post weld heat treatment. Journal of Manufacturing Processes, 2014, 16(1): 144–148.
[12].Ying Wang, Jian Luo, Xiaoming Wang, Xiaoling Xu. Interfacial characterization of T3 copper / 35CrMnSi steel dissimilar metal joints by inertia radial friction welding. International Journal of Advanced Manufacturing Technology, 2013, 68(5): 1479-1490.
[13].Luo Jian, Yuan Yi, Wang Xiaoming, Yao Zongxiang. Double-sides single-pass submerged arc welding for 2205 duplex stainless steel. Journal of materials engineering and performance. 2013, 22(9): 2477-2486.
[14].Luo Jian, Wang Xiaoming, Liu Dejia, Li Fei, Xiang Junfeng. Inertia radial friction welding joint of large size H90 brass/D60 steel. Materials and Manufacturing Processes, 2012, 27(9): 930-935.
[15].Luo J, Liu DJ, Yin DK, Yang JF, Zhang YC, Takiyama. Influence of welding power to the microstructure and properties of 304 stainless steel sheet joints in CO2 laser welding. Rare Metal Materials and Engineering, 2011, 40(S4): 106-110.
[16].Luo Jian, Xiang Junfeng, Liu Dejia, Li Fei, Xue Keliang. Radial friction welding interface between brass and high carbon steel. Journal of Materials Processing Technology, 2012, 212(2): 385-392.
[17].Luo Jian, Xiang Junfeng, Liu Dejia, Li Fei, Xue Keliang. Radial friction welding interface between brass and high carbon steel. Journal of Materials Processing Technology, 2012, 212(2): 385-392.
[18].Luo Jian, Li Fei, Xue Keliang, Liu Dejia, Zhang Haiwei. Temperature field and residual stress analysis of the gear on CO2 laser welding process. Applied Mechanics and Materials, 2011, 86: 670-673.
[19].J Luo, Q Luo, XJ Wang, XC Wang. EMS-CO2 Welding: A new approach to improve droplet transfer characteristics and welding formation. Materials and Manufacturing Processes, 2010, 25(11): 1233-1241.
[20].Yanze Song, Zhihua Wang, Longmao Zhao, Jian Luo. Dynamic crushing behavior of 3D closed-cell foams based on voronoi random model. Materials & Design, 2010, 31(9): 4281-4289.
[21].Y Sun, J Luo, GF Mi, X Lin. Numerical simulation and defect elimination in the casting of truck rear axle using a nodular cast iron[J]. Material & Design, 2011, 32(3): 1623-1629.
[22].Luo J, Wang XJ, Wang JX. New technological methods and designs of stir head in resistance friction stir welding[J]. Science and Technology of Welding and Joining, 2009, 14(7): 650-654(5)
[23].Luo J, Wang Y, Li AN, Hua L. The 3D simulation of liquid core change of cylinder steel rolling forming on soft-reduction continuous casting process. Journal of Wuhan University of Technology, 2006, 28 (SI): 637-639.
[24].Luo J, Lin Y, Luo Q, Wu Y. New structure of automatic torch and new approach for controlling drop transfer in rotating spray welding arc. Science and Technology of Welding and Joining, 2004, 9 (5): 465-469.
[25].Luo J, Luo Q, Lin YH, Xue J. A new approach for fluid flow model in gas tungsten arc weld pool using longitudinal electromagnetic control. Welding Journal, 2003, 82 (8): 202s-206s.
[26].Luo J. New measurement technique and model for friction torque in continuous drive friction welding: engineering oriented voltage–current floating evaluation measurement method and exponential function model of friction torque. Science and Technology of Welding and Joining. 2001, 6(4): 209-212.
[27].罗键, 贾昌申, 王雅生, 薛锦, 吴毅雄. 外加纵向磁场GTAW焊接机理——Ⅱ.电弧模型. 金属学报, 2001, 37(2): 217-220.
[28].罗键, 贾昌申, 王雅生, 薛锦, 吴毅雄. 外加纵向磁场GTAW焊接机理——Ⅰ.电弧特性. 金属学报, 2001, 37(2): 212-216.
专利著作:
[1]罗键,薛克亮,项俊锋,李飞,王小明,刘德佳,王颖. 梯度功能结构制造方法及设备,中国发明专利,专利号:ZL201110105541.7
[2]罗键,赵国际,刘德佳,冷海波. 一种异种材料电磁激励电阻熔-钎焊复合焊接方法和设备,中国发明专利,专利号:ZL201010171343.6
[3]罗键. 一种电磁复合场熔化极堆焊方法、设备及其拓展应用,中国发明专利,专利号:ZL200710078434.3
[4]罗键,叶延洪,周中玉,王笑川,权国政,周杰,刘克威,孙玉,王俊园,曾聪,车长勇,杜俊宏,神祥龙,王芳芳. 废旧模具电磁堆焊修复和表面改性方法与设备, 中国发明专利, 专利号:ZL200810069433.7
[5]罗键,王颖. 电磁控制气电立焊方法及其设备,中国发明专利, 专利号: ZL200710092970.9
[6]罗键. 双相不锈钢厚板电磁复合双面埋弧焊接方法与设备,中国发明专利,专利号:ZL200810237022.4
[7]罗键,赵国际,陈勇. 一种电磁电流耦合场辅助的激光-TIG电弧复合熔钎焊方法和设备,中国发明专利,专利号:ZL201010171331.3
[8]罗键,王颖. 一种基于反问题的残余应力检测方法,中国发明专利,专利号:ZL201010592105.2
[9]罗键. 一种电磁激励TIG电弧熔-钎焊复合焊接方法和设备, 中国发明专利, 专利号:ZL201010171352.5
[10]罗键, 一种异种材料电磁激励电弧熔-钎焊复合方法和设备, 中国发明专利,专利号:ZL201010171319.2
获奖信息:
获得省部级科学技术奖励3项。
热烈欢迎焊接、金属材料、机械制造、自动控制、人工智能、应用数学、应用物理、计算机等专业领域的优秀员工加入本团队,从事现代3D打印与先进制造理论与技术的研究工作。