刘红兵

发布者:阮勤超发布时间:2023-09-19浏览次数:423

姓名:刘红兵  职称:副教授,研究生导师

指导研究方向:先进焊接工艺及装备

通讯地址:上海市松江区龙腾路333号

电子邮箱:lhongbing@163.com

联系电话:021-201620

教育经历:

2000/9-2004/7:合肥工业大学,材料成型与控制,学士

2004/9-2007/4:南京航空航天大学,材料加工工程,硕士

2007/4-2010/6:南京航空航天大学,材料加工工程,博士

工作经历:

2010/8-2018/2:上海飞机制造有限公司,高级研发工程师

2018/2-至今: 太阳集团tcy8722网站,副教授

2020/4-2022/3:上海交通大学,博士后

研究方向:

[1] 磁控旋转电弧焊技术及装备

[2] K-TIG深熔焊焊接工艺开发

[3] 激光焊接技术研发

研究情况:

目前主要从事先进焊接工艺及装备技术研究。主持和参与工信部民机专项、上海市科委和市经委、中国商飞创新基金、浙江省重点研发计划等项目10余项。申请发明专利30余项,在国内外期刊物发表论文50多篇。多项科研成果已经进行成果转化在企业产品生产进行实际应,其中,牵头研制的国产化磁控旋转电弧焊装备成功应用于国内汽车零部件产品的生产,打破了国外在该领域的技术垄断。

学术/社会兼职:

全国喷丸技术专业委员会委员;

上海市焊接学会理事、上海市焊接学会中青年委员会理事;

上海市科委专家库;

浙江省新材料产业智库专家名单(第一批)。

论文信息:

[1] 刘红兵, 宣扬, 杨瑾. Invar合金焊接技术研究现状及展望. 航空制造技术, 2020, 63(9): 83-88.

[2] 刘红兵, 彭铭建, 刘旭, 杨瑾, 宣扬. 磁控旋转电弧焊技术在管件焊接的研究进展及应用.焊接. 2020, 5: 38-42.

[3] Hongbing Liu, Jie Tao, Yoann Gautreau, Pingze Zhang, Jiang Xu, Simulation of thermal stresses in SiC-Al2O3 composite tritium penetration barrier by finite element analysis. Materials and Design, 2009, 30: 2785~2790.

[4] Hongbing Liu, Jie Tao, Jiang Xu, Zhaofeng Chen, Xinyi Luo. Microstructure and mechanical properties of alumina coatings prepared by double glow plasma technique. Applied Surface Science, 2010, 256, 5939~5945.

[5] Hongbing Liu, Jie Tao, Jiang Xu, Zhaofeng Chen, Qiang Gao, Corrosion and tribological behaviors of chromium oxide coatings prepared by the glow-discharge plasma technique. Surface & Coatings Technology, 2009, 204: 28~36.

[6] H.B. Liu, J. Tao, J. Xu, Z.F. Chen, X.J. Sun, Z. Xu, Microstructure characterization of oxidation of aluminized coating prepared by a combined process. Journal of Nuclear Materials, 2008, 378(2): 134~138.

[7] Liu Hongbing, Tao Jie, Zhang Pingze, Xu Jiang, Modeling of Residual Stresses in Functionally Gradient Al2O3 Coating on 316L Substrate. Journal of Computational and Theoretical Nanoscience, 2008, 5(8): 1677~1680.

[8] Jie Tan, Hongbing Liu*, Peilei Zhang*, Zhishui Yu, Hiaichuan Shi, Shaowei Li, Di Wu, Hua Yan, Xin Ye, Fuxin Wang, Xingru Wei, Qi Jiang. A Study on the 2060-T8/2099-T83 Aluminum-Lithium Alloys T-Joints Welded by Double-Sided Laser Beam Welding. Journal of Materials Engineering and Performance, 2020, 29: 4295-4309.

[9] Yang Xuan, Jin Yang*, Hongbing Liu*, Jingyu Deng, Yuhua Wang. Microstructure and mechanical properties of Invar36 alloy joints using keyhole TIG welding. Science and Technology of Welding and Joining. 2020, 25(8): 712-718.

[10] Wenhao Cheng, Hongbing Liu*, Jie Tan, Zhishui Yu, Qingrong Shu. Microstructure Analysis and Fatigue Behavior of Laser Beam. Welding 2060-T8/2099-T83 Aluminum–Lithium Alloys. Coatings, 2021, 11 (693): 1-16.

[11] Mingjian Peng, Hongbing Liu*, Yang Xuan, Xu Liu, Lei Xu, Zhishui Yu. Evaluation of the microstructural and mechanical properties of ductile cast iron and alloy steel dissimilar materials welded by magnetically impelled arc butt. Journal of Materials Research and Technology, 2021, 15: 4623-4635.

[12] Mingjian Peng, Hongbing Liu*, Ying Liang, Wenhu Xu, Yixuan Zhao, Shuhai Chen, Jiarong Weng, Jin Yang*. CMT welding-brazing of al/steel dissimilar materials using cycle-step mode. Journal of Materials Research and Technology, 2022, 18: 1267-1280.

[13] Wenhao Cheng, Yiming Sun, Rui Ma, Yajun Wang, Jie Bai, Linan Xue, Jin Yang, Hongbing Liu*, Xiaoguo Song*, Caiwang Tan, Qinfeng Yu. The precipitation behavior effect of δ and γ phases on mechanical properties of laser powder bed fusion Inconel 718 alloy. Materials Characterization, 2022, 194.

[14] Hongbing Liu*, Wenhao Cheng, Yiming Sun, Rui Ma, Yajun Wang, Jie Bai, Linan Xue, Xiaoguo Song*, Caiwang Tan. Effects of Process Parameters and Heat Treatment on Microstructure and Mechanical Characteristics of Laser Powder Bed Fusion Alloy Inconel 718. Coatings 2023, 13, 189.

[15] Yifan Li, Fei Wang*, Hongbing Liu*, Lei Yang, Peilei Zhang, Yuhua Wang, Huan Li. Effect of surface roughness on the performances of laser-welded Invar 36 alloy joints. Optics and Laser Technology, 2023,162: 109307.

[16] Hongbing Liu, Shanhui Lv, Yang Xuan, João Pedro Oliveira, Norbert Schell, Jiajia Shen, Jingyu Deng, Yuhua Wang, Jin Yang. Effects of Heat Input on Weld Microstructure and Properties in Keyhole TIG Welding of Invar 36 Alloy. Materials, 2023, 16(10):3692.

[17] Jinhong Du, Hongbing Liu*, Fei Wang**, Wen Bao, Huan Li, Tao Liu. Effects of heat input on microstructure evolution, mechanical and corrosion properties of TC4 alloy by keyhole TIG welding. Journal of Materials Research and Technology, 2023, 27: 5266-5277.

[18] Jinhong Du, Hongbing Liu*, Fei Wang**, Wen Bao, Naikang Feng, Huan Li, Tao Liu. Immersion and electrochemical corrosion properties and combined corrosion mechanism of TC4 alloy by keyhole TIG welding. Journal of Materials Research and Technology, 2024, 28: 2455-2465.

[19] Jinhong Du, Hongbing Liu*, Fei Wang**, Wen Bao, Huan Li. Solidification microstructure reconstruction and its effects on phase transformation, grain boundary transformation mechanism and mechanical properties of TC4 alloy welded joint. Metallurgical and Materials Transactions A, 2024.

专利著作

[1] 刘红兵杨瑾吴迪,一种用于检测空心管件焊缝的检测系统以及检测方法,发明专利,授权号:ZL 201910337231.4.

[2] 刘红兵,宣扬,杨瑾吴迪,一种用于焊接中厚板的激光和K-TIG复合焊接方法,发明专利,申请号:201910492405.4.

[3] 刘红兵,于治水,应用于大尺寸Invar钢模具的自动焊接装备以及焊接方法,发明专利,授权号:ZL 201910664166.6.

[4] 刘红兵,于治水,应用于大尺寸Invar钢模具的自动焊接装备,实用新型,授权号:ZL 201921156616.2.

[5] 刘红兵,一种喷丸成形中重叠弹坑的图像分割方法,发明专利,授权号:ZL 202010195473.7.

[6] 刘红兵,徐磊,杨瑾,宣扬,一种一体式高效冷却深熔焊焊枪,发明专利,授权号:ZL 202010258887.X.

[7] 刘红兵,宣扬,于治水,一种轻质合金中厚板焊后预应力校形及强化方法,发明专利,授权号:ZL 202010465283.2.

[8] 刘红兵,一种深熔焊的有限元仿真热源模型获取方法,发明专利,授权号:ZL 202011491905.5.

[9] 刘红兵,李一凡,一种管件椭圆度及厚度的同步检测装置及方法,发明专利,申请号:202110381748.0.

[10] 刘红兵,李一凡,杨磊,一种减少铁镍合金激光焊接气孔的方法,发明专利,申请号:202210146856.4

[11] 刘红兵,鲍文,王飞,杜金红,一种适合于铝合金焊接的钨极氩弧焊焊枪,发明专利,授权号:ZL 202210960046.2

[12] 刘红兵,鲍文,王飞,许鹏,吕善辉,魏尹进,李纯思,一种提高磁控旋转电弧焊焊缝均匀性的方法,申请号:202311853365.4

[13] 刘红兵,王飞,吕善辉,单光悦,一种用于磁控旋转电弧焊接的热源模型计算方法,申请号:202410162217.6

[14] 冯乃康,刘红兵,王飞,李纯思,魏尹进,一种基于彩色视觉用于无坡口零间隙深熔焊的系统以及焊接方法,申请号:202410115091.7

[15] 磁控旋转电弧焊电弧稳定性控制系统V1.0,软件著作权证书,登记号:2023SR1584524.

[16] 磁控旋转电弧焊磁场强度控制系统V1.0,软件著作权证书,登记号:2023SR1786958.

[17] 发明专利成果转化,ZL201910337231.4一种用于检测空心管件焊缝的检测系统以及检测方法,扬州东升汽车零部件股份有限公司,6万,2021.

[18] 发明专利成果转化,202310491405 .9一种不锈钢和碳钢棒材异种金属材料的激光焊接方法,浙江新盛达金属科技发展股份有限公司,35万,2023.

[19] 发明专利成果转化,ZL 202210960046.2一种适合于铝合金焊接的钨极氩弧焊焊枪,谱创医疗科技(上海)有限公司,21万,2023.

[20] 发明专利成果转化,ZL 201910664166.6应用于大尺寸Invar钢模具的自动焊接装备以及焊接方法,上海京俐电子科技有限公司,4万,2023.



获奖信息:

2012年获教育部科技进步奖二等奖1项;

2012年被评为上海市青年科技启明星;

2015年获上海飞机制造有限公司科技进步奖二等奖1项;

2016年获中国商用飞机有限责任公司科技进步奖三等奖1项;

2018年获上海市科技进步奖三等奖1项。