杨明轩 YANG Mingxuan


出生年月
1985.2
籍贯
四川南充


职称
讲师
学历
博士


电话
办公室
第一馆213


系别
材料加工及控制系
职务


电子信箱
yangmingxuan@buaa.edu.cn
传真



个人主页
https://cn.linkedin.com/in/yangmingxuan


◆学习经历


2009.9-2013.6 博士 北京航空航天大学 机械工程及自动化学院 材料加工系
2008.9-2009.6 硕士研究生北京航空航天大学 机械工程及自动化学院 材料加工系
2004.9-2008.6 学士北京航空航天大学 机械工程及自动化学院


◆工作经历


2016.10至今 访问 日本东京大学 航空宇宙系
2013.9至今 讲师北京航空航天大学 机械工程及自动化学院 材料加工系



◆研究领域


脉冲电弧焊接，电弧物理行为，等离子物理，流体仿真


◆荣誉及奖励

2014.12 国防科技发明三等奖 中华人民共和国工业与信息产业化部
2013.11 领跑者5000中国顶尖科技期刊优秀学术论文 中国科学技术信息研究所

◆开授课程



◆教学及科研成果

2013年入职至今，围绕高频脉冲电弧基础物理行为、低温等离子流动态物理热过程、高温流体流动、钛合金结构电弧焊接制造等开展了大量理论及试验研究工作。
项目研究方面：作为负责人顺利开展国家自然科学基金、中央高校专项基金等项目，作为主要完成人员完成了“十二五”总装YY、装备YY重点基金、国家自然科学基金、HK基金等项目并通过验收。“十二五”期间有效解决了零部件/结构钛合金接头气孔缺陷这一技术难题，显著提高了接头疲劳寿命，提升了焊接结构合格率及使用寿命。参与研发的“超高频XXXX电源技术”（排名第4）于2014年12月获国防科技发明三等奖。
基础科研方面：在电弧等离子物理、脉冲电弧物理行为、熔化钛合金流动行为、钛合金脉冲电弧焊接等方面取得了重大进展，2013年以来，提出了用以衡量脉冲电弧收缩强度的电磁力衰减系数、可评估电弧能量分布电弧区域图像识别等概念或方法，建立了脉冲电弧作用下钛合金高温流体温度可视化监测平台，实现了10kHz以上高频脉冲电弧熔池瞬态数值仿真。未来将通过对粒子分布、能量密度、运动轨迹、推进力等关键要素的预测与监控，实现等离子体动态行为的精确控制，结合脉冲焊接、机构设计、运动控制技术，通过3~5年的建设实现毫米级电弧快速加工，能量密度提高20%~50%，加工效率提高2倍左右，解决航空航天、车辆船舶等方面的相关焊接加工难题，实现特殊结构的快速焊接制造。
2015.1-2017.12 国家自然科学基金青年基金项目
高频脉冲焊接电弧等离子体对钛合金熔化行为及组织性能的影响机理
2014.1-2014.12 中央高校专项基金资助项目
高频脉冲等离子体动态热力行为
论文：
[1] Mingxuan YANG, Hao ZHENG, Bojin QI and Zhou YANG, 2016. Microstructure and fatigue property of Ti-6Al-4V by ultra high frequency pulse welding. Journal of Manufacturing Science and Engineering-ASME. (in press)
[2] MINGXUAN, Y., ZHOU, Y. and BOJIN, Q., 2015. Study on Surface Depression of Ti-6Al-4V with Ultrahigh-Frequency Pulsed Gas Tungsten Arc Welding.Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science,46(4), pp. 1935-1941.
[3] YANG, M., YANG, Z., QI, B., 2015. Effect of fluid in molten pool on the welds with Ti-6Al-4V during pulsed arc welding.International Journal of Advanced Manufacturing Technology, 81(5),pp. 1007-1016.
[4] YANG, M., YANG, Z. and QI, B., 2015. The effect of pulsed frequency on the plasma jet force with ultra high-frequency pulsed arc welding.Welding in the World,59(6), pp. 875-882.
[5] Yang Mingxuan, Yang Zhou, et al. Molten behavior with ultra high frequency pulsed arc welding. Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(4):589-593. (in Chinese)
[6] YANG, M., YANG, Z., CONG, B. and QI, B., 2014. A study on the surface depression of the molten pool with pulsed welding.Welding Journal,93(8), pp. 312s-319s.
[7] YANG, M., YANG, Z., CONG, B. and QI, B., 2014. How ultra high frequency of pulsed gas tungsten arc welding affects weld porosity of Ti-6Al-4V alloy.International Journal of Advanced Manufacturing Technology,76(5-8), pp. 955-960.
[8] YANG, M., QI, B., CONG, B., LIU, F. and YANG, Z., 2013. Effect of pulse frequency on microstructure and properties of Ti-6Al-4V by ultrahigh-frequency pulse gas tungsten arc welding.International Journal of Advanced Manufacturing Technology,68(1-4), pp. 19-31.
[9] YANG, M., QI, B., CONG, B., LIU, F., YANG, Z. and CHU, P.K., 2013. Study on electromagnetic force in Arc plasma with UHFP-GTAW of Ti-6Al-4V.IEEE Transactions on Plasma Science,41(9), pp. 2561-2568.
[10] QI, B.J., YANG, M.X., CONG, B.Q. and LIU, F.J., 2013. The effect of arc behavior on weld geometry by high-frequency pulse GTAW process with 0Cr18Ni9Ti stainless steel.International Journal of Advanced Manufacturing Technology, 66(9-12), pp. 1545-1553.
[11] Yang Mingxuan, Qi Bojin, et al. Weld appearance behavior in welding pool of stainless steel by ultrahigh frequency pulse GTAW process [J]. Transactions of the China Welding Institution, 2012, 33(11):31-34. (in Chinese)
[12] Yang Mingxuan, Cong Baoqiang, et al. The influence of pulse current parameters on arc behavior by austenite stainless steel [J]. Transactions of the China Welding Institution, 2012, 33(10): 67-70. (in Chinese)
[13] Yang Mingxuan, Qi Bojin, et al. Microstructures and properties of titanium alloys welds using ultrasonic frequency pulse GTAW [J]. Transactions of the China Welding Institution, 2012, 33(6): 39-42. (in Chinese)
[14] Yang Mingxuan, Qi Bojin, et al. Fast-convert ultrasonic frequency pulse GTAW arc behavior [J]. Journal of Beijing University of Aeronautics and Astronautics, 2012, 38(4): 468-472. (in Chinese)
[15] Qi Bojin, Yang Mingxuan, et al. Study on fast-convert ultrasonic frequency pulse TIG welding arc characteristic [J]. Material Science Forum/Physical and Numerical Simulation of Material Processing VI, 704-705: 745-751.
With Scopus database
Documents:29
Citations: 61total citations by36documents
h-index:5

发明专利：
杨明轩, 齐铂金等. 超音频脉冲钨极氩弧焊平均电弧力测量平台 ZL6.8
杨明轩, 杨舟等. Ti-6Al-4V 钛合金电弧焊接熔池表面温度场监测方法 ZL2.3
杨明轩, 郑浩等. 一种测量焊接电弧轴向力的方法和装置 4.2
齐铂金, 杨明轩等. 一种针对Ti-6Al-4V钛合金平板焊缝气孔清除的焊接配件机构及HPVP-GTAW焊接方法1.2




◆学术与社会服务
2014年 IEEE member
2015年 国家自然科学基金通讯评议专家
2016年 科技部国家科技专家库评审专家
2013年至今 IEEE Transactions on Plasma Science 期刊审稿人
2015年至今 Materials Design 期刊审稿人
2016年 Journal of Engineering Materials and Technology - ASME 期刊审稿人


Curriculum Vitae (CV)

Yang Mingxuan
Lecturer/Assistant Professor
Department of Materials Processing, School of Mechanical Engineering and Automation,
Beijing University of Aeronautics and Astronautics (BUAA)
No.37 Xueyuan Road, Beijing 100191, China
Email: yangmingxuan@buaa.edu.cn
Date of birth: Feb. 1985 Nationality: Chinese
Fax: +86- Address: Room 213, No.1 Hall
Education

Ph.D. in Material Science and Engineering, Material Processing, 2009-2013
School of Mechanical Engineering & Automation (SMEA)
Beijing University of Aeronautics and Astronautics (BUAA)
Supervisor: Prof. Qi Bojin
Master student in Material Processing, SMEA BUAA 2008-2009
Supervisor: Prof. Qi Bojin (recommended as a Ph. D. student in 2009)
B.S. in Material Forming and Control Engineering, SMEA BUAA 2004-2008
Project Experience
National Natural Science Foundation of China (No.5**) Jan. 2015-present
The effect on molten behavior and microstructure of titanium alloys with
high frequency pulsed welding arc plasma Project in charge
studied arc and molten behavior with high frequency pulsed arc plasma
? analyzed arc force mechanism with electromagnetic force and plasma jet force
? used FLUENT VOF model for the surface depression of molten pool
? produced user defined function (UDF) for boundary conditions and source terms
? programmed UDF & UDS with C language
established experimental methods with ultra speed camera and infrared imager
published 5 papers on SCI journals and 1 on EI journal, applied 1 Chinese patent, and attended international conference at Osaka University, Japan
High light: The achievements will be benefit for the research on arc plasma, fluid in molten pool and crystallization process. It will support the arc welding process, industrial application of titanium alloys with pulsed arc plasma.
Talent Supporting Foundation of BUAA Jan. 2015-Dec. 2015
Study on arc physics and molten fluid of titanium alloy with
high frequency pulsed welding arc plasma in charge
explored the correlation between arc behavior and particle momentum
designed observation experiments for arc constriction
conducted theoretical study on molten surface
High light: The research job tried to explore the mechanisms of some physical phenomenon with micro-level at first time
Fundamental Research Funds forthe Central Universities (YWF-12-JXXY-008)
Jan. 2014-Dec. 2014
Thermal & mechanical dynamic behavior with high frequency pulsed plasma in charge
used thermal imager & ultra speed camera system for dynamic arc behavior observation
discussed the results for studying dynamic behavior with pulsed arc welding
? analyzed the arc physics with arc shape, force, and temperature
? improved the mechanism study on molten fluid
improved the arc force measurement method with relative channel for welding current and force transfer
High light: The innovative arc force measurement method was proposed as a patent.
National Natural Science Foundation of China (No.**) Jan. 2009 - Dec. 2012
Optimized theory of microstructure & properties by ultrahigh frequency
pulsed gas tungsten arc welding (UHFP-GTAW) process Key member
supervised by Prof. Qi Bojin
arc plasma and welding techniques for stainless steel & titanium alloys
developed the research on the effect of arc behavior on weld geometry and fluid movement of molten pool
carried out simulation and checked the temperature distribution of stainless steel
conducted Ti-6Al-4V microstructure observe & joints' property test
experienced with several technologies, such as X-Ray detection, metallographic microscope, Digital Vickers hardness test, mechanical properties test and fluid simulation
National Natural Science Foundation of China (No. **) Jan. 2011 - Dec. 2013
Theory for welding control of ultrafast-convert hybrid ultrasonic pulse variable
polarity TIG welding (HPVP-TIG) process by high strength aluminum alloys Key member
developed welding process with aluminum alloys
experienced with hardness and mechanical properties test
produced concluding reports
Foundation project (including two projects) Jan. 2011 - Dec. 2015
Optimization mechanism for microstructure and properties by ultrahigh frequency
pulsed gas tungsten arc welding (UHFP-GTAW) process Key member
scheduled project annual plan and assigned the graduates
managed the project and lab schedule
reported annual and final progresses
Research experience
Experimental Research
designed the welding and carried out the actual welding or to be assistant
conducted the experimental or surveillance platform or structural with mechanical knowledge
produced the observation for arc plasma and molten fluid with ultra speed camera
analyzed the welds microstructure and joints’ mechanical properties
Relevant: Mechanical design, Materials processing, Welding process, Arc plasma, Heat process, Observation technology, Mechanical properties
Mathematical calculation & simulation
established the arc force model with electromagnetic force and plasma jet force
calculated the force balance at the interface between liquid and gas
analyzed the temperature distribution in molten fluid
studied the molten fluid convections and checked the correlation between molten and welds
Relevant: CFD software FLUENT, C programming, Multi-phases, Modeling, Magnetic field, Arc plasma, Heat spray, Temperature distribution, Fluid
Publications
Articles:
10/2016 Mingxuan YANG, Hao ZHENG, Bojin QI and Zhou YANG, 2016. Microstructure and fatigue property of Ti-6Al-4V by ultra high frequency pulse welding [J]. Journal of Manufacturing Science and Engineering-ASME. (in press)
11/2015 Yang Mingxuan, Yang Zhou, et al. Effect of fluid in molten pool on the welds with Ti-6Al-4V during pulsed arc welding [J]. International Journal of Advanced Manufacturing Technology, 2015, 81(5):1007-1016.
11/2015 Mingxuan Yang, Zhou Yang, et al. The effect of pulsed frequency on the plasma jet force with ultra high frequency pulsed arc welding [J]. Welding in the World, 2015, 59(6): 875-882.
08/2015 Yang Mingxuan, Yang Zhou, et al. Study on surface depression of Ti-6Al-4V with ultra high frequency pulsed GTAW [J]. Metallurgical and Materials Transactions B-Process Metallurgy and Materials Processing Science, 2015, 46(4): 1935-1941.
06/2015 Mingxuan Yang, Zhou Yang, et al. How ultra high frequency of pulsed gas tungsten arc welding affects weld porosity of Ti-6Al-4V alloy [J]. International Journal of Advanced Manufacturing Technology, 2015, 76(6):955-960.
04/2015 Yang Mingxuan, Yang Zhou, et al. Molten behavior with ultra high frequency pulsed arc welding [J], Journal of Beijing University of Aeronautics and Astronautics, 2015, 41(4):589-593.
11/2014 Mingxuan Yang, Zhou Yang, et al. Fluid and arc behavior with ultra high frequency pulsed arc welding [C], The International Symposium on Visualization in Joining & Welding Science through Advanced Measurements and Simulation, 2014, Japan.
08/2014 M.X. Yang, Z.Yang, et al. Study on surface depression of molten pool with pulsed welding [J]. Welding Journal, 2014, 93(8): 312s-319s.
09/2013 M.X. Yang, B.J.Qi, et al. Study on electromagnetic force in arc plasma with UHFP-GTAW of Ti-6Al-4V [J]. IEEE Transactions on Plasma Science, 2013, 41(9): 2561-2568.
09/2013 M.X. Yang, B.J.Qi, et al. Effect of pulse frequency on microstructure and properties of Ti-6Al-4V by ultrahigh frequency pulse gas tungsten arc welding [J]. International Journal of Advanced Manufacturing Technology, 2013, 68 (1): 19-31.
06/2013 B.J.Qi, M.X. Yang, et al. The effect of arc behavior on weld geometry by high frequency pulse GTAW process with 0Cr18Ni9Ti stainless steel [J]. International Journal of Advanced Manufacturing Technology, 2013, 66 (10):1545-1553.
11/2012 Yang Mingxuan, Qi Bojin, et al. Weld appearance behavior in welding pool of stainless steel by ultrahigh frequency pulse GTAW process [J]. Transactions of the China Welding Institution, 2012, 33(11):31-34.
10/2012 Yang Mingxuan, Cong Baoqiang, et al. The influence of pulse current parameters on arc behavior by austenite stainless steel [J]. Transactions of the China Welding Institution, 2012, 33(10): 67-70.
06/2012 Yang Mingxuan, Qi Bojin, et al. Microstructures and properties of titanium alloys welds using ultrasonic frequency pulse GTAW [J]. Transactions of the China Welding Institution, 2012, 33(6): 39-42.
06/2012 Yang Mingxuan, Qi Bojin, et al. Fast-convert ultrasonic frequency pulse GTAW arc behavior [J]. Journal of Beijing University of Aeronautics and Astronautics, 2012, 38(4): 468-472.
02/2012 Qi Bojin, Yang Mingxuan, et al. Study on fast-convert ultrasonic frequency pulse TIG welding arc characteristic [J]. Material Science Forum / Physical and Numerical Simulation of Material Processing VI, 704-705: 745-751.
Co-author (more than 20 papers):
02/2015 Microstructure, tensile properties of Ti-6Al-4V by ultra high pulse frequency GTAW with low duty cycle, Journal of Materials Processing Technology.
Chinese patent:
08/2016 Yang Mingxuan, Zheng Hao, et al. An equipment for welding arc force measurement (4.2)
08/2016 Yang Mingxuan, Qi Bojin, Yang Zhou. Surveillance method for the surface temperature of Ti-6-Al-4V with arc welding (ZL2.3)
11/2013 Qi Bojin, Yang Mingxuan, et al. Technical solution on eliminating porosity of Ti-6Al-4V with pulsed arc welding (1.2)
07/2012 Yang Mingxuan, Qi Bojin, et al. Measurement equipment for arc force by ultrasonic pulse frequency arc welding (ZL6.8)

Honors & Awards
National Defense Science and Technology Invention Award of China (Third Award)
'Frontrunner 5000' Top articles in outstanding science & technology journals of China