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盈亮
2023-05-09 16:56
科教人文
  • 盈亮

  • 盈亮 - 博士 副教授 硕导-大连理工大学-汽车工程学院-个人资料

近期热点

资料介绍

个人简历


个人简介
盈亮,男,美国汽车工程师协会(SAE)会员。
2018/12 – 至今, 大连理工大学,汽车工程学院,副教授;
2018/03 – 2019/03, University of Sydney (USYD), Australia, Faculty of Engineering and Information Technologies, Visiting Scholar;
2014/01 – 2017/03, 大连理工大学,材料科学与工程学院,师资博士后;
2013/12 – 2018/11, 大连理工大学,汽车工程学院,讲师;
主持及参与项目:
主持国家自然科学基金1项(51705065)、中国博士后基金1项(2014M561223);
参与国家自然科学基金项目3项(10932003、51905075、51805045)、国家科技支撑计划项目1项(2013BAG05B01)、国家工信部04重大专项1项(2011ZX04001-021)、国际合作项目2项(ZX20150753、ZX20110075)、校级重大项目2项(DUT14ZD224、DUT15TD31);
学术成果:
1、已发表SCI/EI检索论文 30 余篇,其中第一/通讯作者 20 余篇,JCR一/二区论文 16 篇。相应成果发表在《Int. J .Mech. Sci.》,《Mater. Design》,《J. Mater.Process.Tech.》,《J. Manuf. Process》,《J. Alloy. Compd.》,《Int. J. Therm. Sci.》,《Appl. Therm. Eng.》,《Int. J. Impact. Eng.》,《Thin. Wall. Struct.》,《Int. J. Adv. Manuf. Tech》等机械、结构及工程热力学相关的著名国际学术期刊中,他引超 300 次;
2、出版中英文学术专著 2 部;
3、获授权国家发明专利 9 项,实用新型 10 项;
指导学生:
独立培养硕士研究生已毕业 9 人,在读 4 人(截止2020.9);
作为副导师指导博士研究生 2 人、硕士生 9 人(已毕业);
专利

一种结构胶粘剂断裂能测试试件固化模具及其操作方法
一种获取变强度钢板差温成形极限的试验装置及方法
一种高温高速金属板材热冲压成形极限测试装置及测试方法
一种磁芯粘接结构压缩剪切加载夹具及其测试方法
一种铝镁合金板料温热成形生产线及其生产工艺
一种高温高速金属板材热冲压成形极限测试装置
著作成果
热冲压先进制造技术
Hot Stamping Advanced Manufacturing Technology of Lightweight Car Body
授课信息
金属工艺学 /2019-2020 /秋学期 /33课时 /2.0学分 /1040340101
金属工艺学 /2019-2020 /秋学期 /33课时 /2.0学分 /1040340101
其他奖励
2018《中国有色金属学报》2018年度优秀论文二等奖
20152014年度大连理工大学考核优秀奖

研究领域


研究方向
[1] 汽车车身结构轻量化设计与性能优化
[2] 汽车功能复合材料/结构设计、制备与表征
[3] 汽车金属/复合材料零部件温热成形技术
[4] 汽车金属/复合材料先进连接工艺与力学性能表征"研究领域
研究领域:汽车轻量化设计与先进制造,包括:
轻量化金属/纤维复合材料一体化成形制造工艺及关键力学问题研究;
梯度性能金属/复材车身结构抗撞安全性能优化设计;
复杂温度环境下热加工过程传热机理研究;"

近期论文


[1]Gao, Tianhan,Ying, Liang,Hu, Ping,Han, Xiao,Rong, Hai,Wu, Yi,Sun, Jingshuai.Investigation on mechanical behavior and plastic damage of AA7075 aluminum alloy by thermal small punch test: Experimental trials, numerical analysis[J],JOURNAL OF MANUFACTURING PROCESSES,2020,50:1-16
[2]刘文权,盈亮,荣海,胡平.基于损伤修正M-K模型的高强度钢成形极限预测[J],吉林大学学报(工学版),2018,49(04):1266-1271
[3]Ying, Liang,Gao, Tianhan,Rong, Hai,Han, Xiao,Hu, Ping,Hou, Wenbin.On the thermal forming limit diagram (TFLD) with GTN mesoscopic damage model for AA7075 aluminum alloy: Numerical and experimental investigation[J],JOURNAL OF ALLOYS AND COMPOUNDS,2019,802:675-693
[4]Ying, Liang,Gao, Tianhan,Dai, Minghua,Hu, Ping,Shen, Luming.Investigation of convection heat transfer coefficient of circular cross-section short pipes in hot stamping dies[J],APPLIED THERMAL ENGINEERING,2018,138:133-153
[5]Ying, Liang,Gao, Tianhan,Dai, Minghua,Yang, Yunhe,Hu, Ping.Experimental investigation of temperature-dependent interfacial heat transfer mechanism with spray quenching for 22MnB5 steel[J],APPLIED THERMAL ENGINEERING,2017,121:48-66
[6]Ying, Liang,Zhao, Xi,Dai, Minghua,Zhang, Sizhu,Hu, Ping.Crashworthiness design of quenched boron steel thin-walled structures with functionally graded strength[J],INTERNATIONAL JOURNAL OF IMPACT ENGINEERING,2016,95:72-88
[7]Ying, Liang,Gao, Tianhan,Dai, Minghua,Hu, Ping.Investigation of interfacial heat transfer mechanism for 7075-T6 aluminum alloy in HFQ hot forming process[J],APPLIED THERMAL ENGINEERING,2017,118:266-282
[8]Ying, Liang,Wang, Dan-tong,Liu, Wen-quan,Wu, Yi,Hu, Ping.On the numerical implementation of a shear modified GTN damage model and its application to small punch test[J],INTERNATIONAL JOURNAL OF MATERIAL FORMING,2018,11(4):527-539
[9]Ying, Liang,Liu, Wenquan,Wang, Dantong,Hu, Ping.Parameter Calibration of GTN Damage Model and Formability Analysis of 22MnB5 in Hot Forming Process[J],JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE,2017,26(11):5155-5165
[10]Ying Liang,Lu Jin-dong,Chang Ying,Tang Xing-hui,Hu Ping,Zhao Kun-min.Optimization Evaluation Test of Strength and Toughness Parameters for Hot-Stamped High Strength Steels[J],JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL,2013,20(11):51-56
[11]Gao, Tianhan,Ying, Liang,Dai, Minghua,Shen, Guozhe,Hu, Ping,Shen, Luming.A comparative study of temperature-dependent interfacial heat transfer coefficient prediction methods for 22MnB5 steel in spray quenching process[J],INTERNATIONAL JOURNAL OF THERMAL SCIENCES,2019,139:36-60
[12]Dai, Minghua,Ying, Liang,Ma, Haolin,Chen, Shuai,Hu, Ping.Comparative study on thin-walled structures with function graded strength and tapered angle[J],INTERNATIONAL JOURNAL OF CRASHWORTHINESS,2019,24(3):257-271
[13]He, Bin,Ying, Liang,Li, Xianda,Hu, Ping.Optimal design of longitudinal conformal cooling channels in hot stamping tools[J],APPLIED THERMAL ENGINEERING,2016,106:1176-1189
[14]Yu, Ye,Ying, Liang,Hou, Wen-bin,Hu, Ping,Jia, Xiu-xian,Akhmet, Ganiy.Failure analysis of adhesively bonded steel corrugated sandwich structures under three-point bending[J],COMPOSITE STRUCTURES,2018,184:256-268
[15]朱祎国,盈亮,胡平,张万喜.Modeling and experimental verification ofthermo-mechanical coupled behavior of face-centered-cubic polycrystals[J],MATERIALS & DESIGN,2013,52(12):289-294
[16]Hu, Ping,Ying, Liang,Li, Ye,Liao, Zhengwei.Effect of oxide scale on temperature-dependent interfacial heat transfer in hot stamping process[J],JOURNAL OF MATERIALS PROCESSING TECHNOLOGY,2013,213(9):1475-1483
[17]Zhao, Dan,Zhu, Yiguo,Ying, Liang,Hu, Ping,Chang, Ying,Zhang, Wanxi.NUMERICAL SIMULATION OF DEFORMATION BEHAVIOR OF 22MnB5 BORON STEEL AT ELEVATED TEMPERATURES AND EXPERIMENTAL VERIFICATION[J],ACTA MECHANICA SOLIDA SINICA,2014,27(6):579-587
[18]Hu, Ping,Shi, Dongyong,Ying, Liang,Shen, Guozhe,Liu, Wenquan.The finite element analysis of ductile damage during hot stamping of 22MnB5 steel[J],MATERIALS & DESIGN,2015,69:141-152
[19]Huang, Y.,Xu, Y.,Li, B.,Ying, L.,Yang, F.,Wang, X..Novel electrical resistance method to measure underdeposit corrosion and its inhibition in pipeline steels[J],CORROSION ENGINEERING SCIENCE AND TECHNOLOGY,2016,51(3):211-222
[20]Rong, Hai,Hu, Ping,Ying, Liang,Hou, Wenbin,Zhang, Jinghuang.Thermal forming limit diagram (TFLD) of AA7075 aluminum alloy based on a modified continuum damage model: Experimental and theoretical investigations[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2019,156:59-73
[21]Hu, Ping,Liu, Wenquan,Ying, Liang,Zhang, Jinghuang,Wang, Dantong.A thermal forming limit prediction method considering material damage for 22MnB5 sheet[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2017,92(1-4):627-638
[22]Han, Xiao,Hou, Shaoqiang,Ying, Liang,Hou, Wenbin,Aliyev, Husniddin.On the fracture behaviour of adhesively bonded CFRP hat-shaped thin-walled beam under axial crushing load: An experimental and modelling study[J],COMPOSITE STRUCTURES,2019,215:258-265
[23]Chang Ying,Meng Zhao-huan,Ying Liang,Li Xiao-dong,Ma Ning,Hu Ping.Influence of Hot Press Forming Techniques on Properties of Vehicle High Strength Steels[J],JOURNAL OF IRON AND STEEL RESEARCH INTERNATIONAL,2011,18(5):59-63
[24]Zhao, Dan,Zhu, Yiguo,Ying, Liang,Hu, Ping,Zhang, Wanxi.Modeling and experimental verification of thermo-mechanical coupled behavior of face-centered-cubic polycrystals[J],MATERIALS & DESIGN,2013,52:289-294
[25]Liu, Y.,Zhu, Y. G.,Ying, L.,Hu, P..Crystal Plasticity Finite Element Model Based on Dislocation Density Evolution Coupling with Thermal Activation and Damage Mechanism[A],3rd International Conference on Advanced High Strength Steel and Press Hardening (ICHSU),2017,219-224
[26]He, Bin,Si, Yanglei,Ying, Liang,Hu, Ping.Research on optimization design of conformal cooling channels in hot stamping tool based on response surface methodology and multi-objective optimization[A],12th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2016,80
[27]Yu, Ye,Hou, Wen-bin,Hu, Ping,Ying, Liang,Akhmet, Ganiy.Elastic constants for adhesively bonded corrugated core sandwich panels[J],COMPOSITE STRUCTURES,2017,176:449-459
[28]Liu, Yang,Zhu, Yiguo,Oskay, Caglar,Hu, Ping,Ying, Liang,Wang, Dantong.Experimental and computational study of microstructural effect on ductile fracture of hot-forming materials[J],MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2018,724:298-323
[29]Liu, W. Q.,Hu, P.,Ying, L.,Wang, D. T..Effect of Material Damage on Thermal Forming Limit Prediction for Hot Stamping[A],3rd International Conference on Advanced High Strength Steel and Press Hardening (ICHSU),2017,225-229
[30]Ying, Liang,Liu, Wenquan,Wang, Dantong,Hu, Ping.Ductile failure analysis of high strength steel in hot forming based on micromechanical damage model[A],12th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2016,80
[31]Liu, Yang,Zhu, Yiguo,Ying, Liang,Hu, Ping.Crystal plasticity extend FEM implementation of thermal-tensile aluminum alloy[A],12th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2016,80
[32]Shi, Dongyong,Hu, Ping,Ying, Liang.Comparative study of ductile fracture prediction of 22MnB5 steel in hot stamping process[J],INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY,2016,84(5-8):895-906
[33]Yu Y.,Ying L.,Hu P.,Li X.,Fan R..Optimization design method of school bus structure lightweight on the rollover safety[A],SAE-China Congress, 2014,2014,328:261-268
[34]Hu P.,Shi D.-Y.,Ying L.,Liu W.-Q.,Yan Q.-Y..Thermoplastic behavior and application in the auto body light-weight manufacture of high strength steel[J],Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology,2014,34:159-163
[35]Hu, P.,Ying, L.,Jiang, D. X.,Shi, D. Y.,Shen, G. Z.,Zhang, X. K.,Liu, W. Q..The Investigation of 3D Temperature Field Numerical Simulation in Hot Forming of High Strength Steel[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:104-113
[36]Hu, P.,Shi, D. Y.,Ying, L.,Shen, G. Z.,Chang, Y.,Liu, W. Q..Coupled of Thermal-Mechanical-Transformation Numerical Simulation on Hot Stamping with Static Explicit Algorithm[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:394-405
[37]Shi, D. Y.,Ying, L.,Hu, P.,Lu, J. D.,Zhao, X.,Liu, W. Q..Experimental and Numerical Determination of Thermal Forming Limit Diagrams (TFLD) of High Strength Steel 22MnB5[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:406-413
[38]Hu, P.,Dai, M. H.,Ying, L.,Shi, D. Y.,Zhao, K. M.,Lu, J. D..Numerical Investigation for Formability of Aluminum 6016 Alloy under Non-isothermal Warm Forming Process[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:464-470
[39]Deng, Siying,Shen, Guozhe,Hu, Ping,Liu, Lizhong,Ying, Liang.Investigations on Numerical Simulation of Tailored Tempering Process Based on Related Experiments[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:924-930
[40]Dai, M. H.,Ying, L.,Fan, Z. S.,Hu, P.,Shi, D. Y.,He, B..Exponential Model of Strength-Hardness Mechanical Properties Analysis and Numerical Prediction in Hot Stamping[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:1058-1065
[41]Shi, Dongyong,Ying, Liang,Hu, Ping,Liu, Wenquan,Shen, Guozhe.Numerical Simulation of Temperature Field, Microstructure Evolution and Mechanical Properties of HSS during Hot Stamping[A],9th International Conference and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes (NUMISHEET),2013,1567:962-965
[42]Li, Ye,Ying, Liang,Hu, Ping,Shi, Dongyong,Zhao, Xi,Dai, Minghua.Coupled Numerical Simulation of Hot Stamping Process and Experimental Verification[A],11th International Conference on Numerical Methods in Industrial Forming Processes (NUMIFORM),2013,1532:471-477
[43]盈亮,张富博,戴明华,胡平.基于侧碰的梯度性能热成形B柱抗撞性能优化[J],机械工程学报,2017,53(12):102-109
[44]盈亮,刘文权,王丹彤,胡平,王琪.7075-T6铝合金温成形损伤演化实验与仿真[J],中国有色金属学报,2016,26(7):1383-1390
[45]盈亮,戴明华,胡平,闫巧云.6061-T6铝合金高温本构模型及温成形数值模拟[J],中国有色金属学报,2015,25(7):1815-1821
[46]盈亮,申国哲,胡平,王安东,马宁,常颖.AA6016铝材烘烤硬化性能研究[J],机械工程学报,2011,47(10):19-24
[47]盈亮,余洋,张富博,赵曦,胡平.梯度强度热成形零件抗撞性能的仿真与优化[J],汽车工程,2016,38(6):686-691,730
[48]盈亮,史栋勇,胡平,刘文权.基于连续介质损伤力学的高强度钢板热成形性数值预测[J],机械工程学报,2015,52(4):36-44
[49]盈亮,余洋,戴明华,胡平,贺斌,张立文.成形和淬火工艺对高强度热成形零件硬度-强度的影响[J],材料热处理学报,2015,36(1):205-210
[50]盈亮,戴明华,胡平,范正帅,申国哲,史栋勇.高强度热成形钢板冷却速率-强度-硬度预测[J],吉林大学学报(工学版),2014,44(6):1716-1722
[51]盈亮,赵荣秀,高天涵,胡平,郭威.22MnB5硼钢的气雾淬火工艺参数优化[J],材料热处理学报,2015,36(10):230-235
[52]盈亮,贾治域,常颖,唐行辉,李树娟,靳菲,赵坤民.高强度热冲压钢板强韧性工艺优化研究[J],材料科学与工艺,2013,21(6):72-77
[53]盈亮,贾治域,胡平,常颖,吴秀峰,王玉山,赵立信.高强度钢板热冲压成形工艺的改进[J],锻压装备与制造技术,2013,1:75-78
[54]盈亮,余洋,戴明华,张立文,胡平.热冲压RCP工艺对AHSS硼钢的组织性能影响[A],第10届中国热处理活动周暨中国热处理技术路线图论坛,2014,19-23
[55]盈亮,余洋,戴明华,张立文,胡平.热冲压快速冷却工艺对22MnB5钢组织与性能的影响[J],金属热处理,2015,40(1):35-38
[56]盈亮,张富博,戴明华,余洋,胡平.基于侧碰的热冲压强度梯度车身结构仿真优化[A],2015中国汽车工程学会年会,2015,Vol.3:1001-1004
[57]刘文权,盈亮,王丹彤,鲁可心,胡平.热冲压成形过程细观损伤演化机理研究[J],机械工程学报,2016,52(14):31-39
[58]刘文权,盈亮,荣海,胡平.高强度钢板热成形性预测研究进展[J],河北科技大学学报,2018,39(2):91-98
[59]廖铮玮,盈亮,胡平,李烨,唐行辉,常颖.高强度钢板热成形界面换热系数估算[J],材料热处理学报,2013,34(z1):167-172
[60]史栋勇,盈亮,胡平,申国哲,武文华,姜大鑫.高强度钢板热成形三维温度场数值模拟分析[J],吉林大学学报(工学版),2013,44(4):946-952
[61]于野,盈亮,胡平,李显达,刘立忠,张立文.高强钢波纹夹芯结构的力学性能研究[J],固体力学学报,2014,35(3):302-307
[62]常颖,盈亮.热成形中材料热物性参数对Beck反算IHTC的影响[J],哈尔滨工业大学学报,2015,47(3)
[63]常颖,盈亮,靳菲,李树娟,赵坤民,胡平.回火工艺对热成形AHSS力学特性的影响[J],材料热处理学报,2013,34(11):74-78
[64]廖铮玮,盈亮,胡平,申国哲.高强度钢板热冲压成形传热基础研究[J],热加工工艺,2013,42(5):1-4,7
[65]李烨,盈亮,胡平,廖铮玮.圆截面管对流换热系数的实验研究[J],热加工工艺,2013,42(19):15-18
[66]史栋勇,盈亮,胡平,吴秀峰,王玉山,赵立信.汽车B柱热成形试验与热力耦合仿真[J],锻压装备与制造技术,2013,1:82-85
[67]贺斌,盈亮,胡平,吴秀峰,王玉山,赵立信.高强度钢板热冲压水冷模具设计[J],锻压装备与制造技术,2012,6:62-65
[68]侯红苗,盈亮,吴秀峰,王玉山,赵立信,胡平.加热温度对22MnB5微观组织和奥氏体晶粒的影响[J],锻压装备与制造技术,2012,6:89-91
[69]李效文,盈亮,申国哲,戴明华,韩小强,胡平.高强度热成形钢点焊性能与接头组织[J],电焊机,2012,42(12):92-96
[70]王安东,盈亮,申国哲,常颖,孟召焕,胡平.新型汽车用AI-Mg-Si系铝合金烘烤硬化性能研究[J],汽车工艺与材料,2011,5:67-70,73
[71]史栋勇,盈亮,胡平,刘文权,贺斌.热冲压高强度钢板微观组织演化预测[A],2014年全国固体力学学术大会,2014,1-1
[72]胡平,盈亮.高强度钢板的热塑性成形极限[A],2013
[73]余洋,盈亮,胡平,戴明华,张富博.典型热冲压强度梯度结构件正碰仿真优化[A],2014中国汽车工程学会年会,2014,965-967
[74]史栋勇,盈亮,胡平,戴明华,李烨,贺斌.超高强度汽车结构件热成形模具仿真优化技术[A],2012中国汽车轻量化技术研讨会,2012,423-429
[75]胡平,盈亮,赵曦,李烨,史栋勇.基于CAx的热冲压模具数字样机的功能开发[A],全国先进制造技术高层论坛暨第十一届制造业自动化与信息化技术研讨会论文集中国机械工程学会;中国自动化学会,2012,10-16
[76]韩小强,盈亮,王琪,高天涵,胡平,侯文彬.车辆工程大学生创新实践基地建设与实践[J],实验室科学,2016,19(1):165-167
[77]贺斌,胡平,盈亮.热冲压过程传热耦合研究[J],机械工程学报,2016,52(22):31-37
[78]赵曦,陈帅,盈亮,侯文彬,胡平.梯度强度汽车薄壁结构抗撞性优化[J],汽车工程,2018,40(5):508-514
[79]胡平,贺斌,盈亮.基于有限元的热冲压界面换热系数反算[J],材料热处理学报,2016,37(3):188-195
[80]徐云泽,黄一,盈亮,杨飞,李兵,王晓娜.管线钢在沉积物下的腐蚀行为及有机膦缓蚀剂的作用效果[J],金属学报,2016,52(03):320-330
[81]常颖,李烨,盈亮,卢金栋,唐行辉,郭威.热冲压钢板氧化行为对传热动力学性能的影响[J],吉林大学学报(工学版),2013,43(6):1551-1557
[82]徐云泽,黄一,盈亮,王晓娜,杨飞.X65管线钢在沉积物下腐蚀与缓蚀剂作用效果[J],材料工程,2016,44(10):100-108
[83]常颖,靳菲,盈亮,史栋勇,李树娟,赵坤民.改善复杂形状的热成形先进高强钢汽车结构件成形性的工艺开发和机理分析[J],中国科学. 技术科学,2014,44(8):839-846
[84]Hu, Kan,Yu, Ye,Ying, Liang,Hu, Ping,Hou, Wen-Bin.基于校车侧翻安全性的热冲压立柱结构优化设计[J],吉林大学学报(工学版),2016,47(3):884-890
[85]史栋勇,胡平,盈亮,申国哲,刘文权.基于动力显式算法的热成形数值模拟预测[J],工程力学,2014,31(12):186-192
[86]贺斌,李显达,盈亮,胡平,张向奎.热冲压模具随形冷却水道优化设计[J],吉林大学学报(工学版),2015,46(6):1974-1980
[87]申国哲,李效文,盈亮,史栋勇,郭润清,孟召焕.基于硬度梯度的热成形高强钢弯曲性能研究[J],农业机械学报,2013,44(2):261-266
[88]韩小强,于宏元,盈亮,胡平,李丽华,郭威.热冲压关键工艺参数对零件力学性能影响研究[J],锻压装备与制造技术,2013,48(4):58-62
[89]胡平,于宏元,盈亮,申国哲,史栋勇.基于侧面碰撞的热成型高强度零件开发[J],汽车技术,2013,1(1):57-61
[90]韩小强,胡平,盈亮,赵坤民.汽车铝合金覆盖件轻量化温成形技术关键问题[J],锻造与冲压,2013,13(12):38-42
社会兼职
担任《International Journal of Mechanical Sciences》、《Journal of Alloys and Compounds》、《Journal of Manufacturing Processes》、《Thin-Walled Structures》、《JOM》、《Transactions of Nonferrous Metals Society of China》等国际学术期刊专业审稿人。

标签: 大连理工大学 汽车工程学院

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