叶福兴 教授 博导

教育部新世纪优秀人才、威海英才

电话：18322015540

E-mail：yefx@tju.edu.cn

研究所：焊接与先进制造技术研究所

地址：天津市海河教育园区雅观路135号31教学楼

教育背景

1993.09-1997.07 西安交通大学 本科

1997.09-2000.12 西安交通大学 硕士

2001.04-2004.03 日本大阪大学 博士

工作经历

2006.04至今 天津大学 教授

2012.09-2013.02 美国纽约州立大学 高级访问学者

2006.06-2010.03 日本 大阪大学 共同研究员

2004.04-2006.05 日本 大阪大学 特聘研究员

学术兼职

Journal of Manufacturing and Materials Processing Editorial Board

American Journal of Materials Synthesis and Processing Guest Editor

天津市材料表面科学与工程创新团队核心成员

中国机械工程学会焊接分会 理事

中国机械工程学会 高级会员

焊接分会堆焊及表面工程专业委员会 会员

中国焊接学会青年工作委员会 委员

国际焊接学会IIW专业委员会C-II Arc Welding and Filler Metals专家

研究领域

航空发动机涂层、燃氢防护涂层、新能源汽车先进连接、增材制造与绿色再制造、热喷涂

主要讲授课程

本科生课程：材料成型原理、电动汽车的先进连接技术、材料加工导论

研究生课程：材料加工表面与界面、论文写作指导、特种连接方法

主要承担的项目

1.与新能源汽车、增材制造、电力电子等新兴行业的大中型企业的合作项目。

2.国家自然科学基金项目，新能源汽车超声波点焊铝线束接头的界面微观动态演变行为与可靠性，60万元，主持。

3.国家自然科学基金项目，可控微循环诱导超声空化焊方法的关键技术与焊接机理，72万元，主持。

4.航空发动机及燃气轮机重大专项，热障涂层，2200万元，参加。

5.国家重点研发计划，现场增材修复与再制造形性调控与移动式装备集成设计，5620万元，参加。

6.GF项目，XXX涂层，196万元，主持。

7.天津市自然科学基金，HVAF再制造涂层的纳微观组装机制及关键制备技术，主持。

8.国家自然科学基金项目，基于爆炸焊和能量分配的HVAF喷涂半熔化粒子共沉积理论与高结合强度机理，80万元，主持。

9.天津市自然科学基金，多尺度金属陶瓷再制造涂层强韧设计准则与关键沉积技术，主持。

10.国家科技支撑计划，工程机械零部件再制造关键技术与装备，1294万元，参加。

11.天津市科技支撑计划，工程机械再制造关键技术研究及示范工程，400万元，参加。

12.国家自然科学基金项目，改进等离子喷涂法沉积耐无铅液态钎料腐蚀的铁基块体金属玻璃涂层的行为与性能，主持。

获奖及荣誉

2024年入选“威海英才”

2024年荣获河南省教育厅成果一等奖

2023年荣获中国腐蚀与防护学会科学技术一等奖

2009年入选“教育部新世纪优秀人才支持计划”

2004年荣获国际热喷涂会议最优秀论文奖

2003年荣获日本热喷涂会议奖励奖

指导的学生多次获得国家奖学金

参编著作

(1)胡绳荪主编，叶福兴等参编，焊接制造导论，普通高等教育“十三五”重点规划教材，北京机械出版社，2018年

(2)何满潮；朱旺喜；李元元；聂祚仁；叶福兴 等,冶金与矿业学科发展战略研究报告（2016-2020）（国家自然科学基金委员会），科学出版社，2017年。

近年发表论文

[1]Fuxing Ye, Yingfan Wang, Hang Qi, Joint formation and bonding mechanism of ultrasonic welded joints between aluminum wire harnesses and copper terminals with the addition of the copper foil interlayer, Materials Letters 385 (2025) 138162.

[2]Fanwei Meng, Fuxing Ye, Tianyuan Luo, Yuan Yao, Unveiling CMAS corrosion mechanism on the surface of a novel mid-entropy Hf-Ta ceramic for thermal barrier coatings, Applied Surface Science, 702 (2025) 163310.

[3]Fanwei Meng, Fuxing Ye, Tianyuan Luo, Sajid Ali, Mid-entropy ceramic (Y_0.3Gd_0.3Yb_0.4)₇(Hf_0.5Ta_0.5)₆O₂₄: A potential novel thermal barrier ceramic prepared by ultrafast high-temperature sintering, Journal of Alloys and Compounds 1010 (2025) 177743.

[4]Fanwei Meng, Fuxing Ye, Tianyuan Luo, The high-temperature CMAS corrosion behavior of high-entropy (La_0.2Nd_0.2Sm_0.2Eu_0.2Gd_0.2)₂Hf₂O₇ hafnate thermal barrier coating material with fluorite structure, Journal of the European Ceramic Society, 44 (2024) 2460–2470.

[5]Fuxing Ye, Tianyuan Luo, Fanwei Meng, Lei Guo, Structure, thermal and mechanical properties of mid-entropy thermal barrier ceramic (Y_0.3Gd_0.3Yb_0.4)₄Hf₃O₁₂ prepared by ultrafast high-temperature sintering, Ceramics International, 50 (2024) 181–187.

[6]Lei Guo, Jiayi Feng, Mingguang Liu, Jingyong Sun, Shuo Yang, Lei Jin, Fuxing Ye, Yb doping effects on CMAS corrosion resistance of Yb-doped GdPO₄ by first-principles calculation and experimental investigation, Corrosion Science, 218 (2023) 111175.

[7]Fuxing Ye, Fanwei Meng, Tianyuan Luo, Hang Qi, The CMAS corrosion behavior of high-entropy (Y_0.2Dy_0.2Er_0.2Tm_0.2Yb_0.2)₄Hf₃O₁₂ hafnate material prepared by ultrafast high-temperature sintering (UHS), Journal of the European Ceramic Society, 43 (2023) 2185–2195.

[8]Fuxing Ye, Fanwei Meng, Tianyuan Luo, Hang Qi, Ultrafast high-temperature sintering of high-entropy (La_0.2Nd_0.2Sm_0.2Eu_0.2Gd_0.2)₂Hf₂O₇ ceramics with fluorite structure, Ceramics International, 48 (2022) 35649–35654.

[9]郭永明, 叶福兴, 祁航, 超高速激光熔覆技术研究现状及发展趋势, 中国表面工程, Vol. 35 No.6 (2022) 39-50.

[10]Yu-Yao Bai, Wen-Jing Kang, Cong Xi, Wen-Qi Yang, Zhe Li, Zi-Ang Ma, Cun-Ku Dong, Hui Liu, Jing Mao, Fu-Xing Ye, Xi-Wen Du, A silver catalyst with a high-energy surface prepared by plasma spraying for the hydrogen evolution reaction, Chemical Communications, Volume 58, Issue 17, 2022, 2878-2881.

[11]Zhiyuan Wei, Guohui Meng, Lin Chen, Guangrong Li, Meijun Liu,Weixu Zhang, Lina Zhao, Qiang Zhang, Xiaodong Zhang, Chunlei Wan, Zhixue Qu, Lin Chen, Jing Feng, Ling Liu, Hui Dong, Zebin Bao, Xiaofeng Zhao, Xiaofeng Zhang, Lei Guo, Liang Wang, Bo Cheng, Weiwei Zhang, Pengyun Xu, GuanJun Yang, Hongneng Cai, Hong Cui, You Wang, Fuxing Ye, Zhuang Ma, Wei Pan, Min Liu, Kesong Zhou, Changjiu Li, Progress in ceramic materials and structure design toward advanced thermal barrier coatings, Journal of Advanced Ceramics, 2022, 11(7) 985-1068.

[12]Hang Qi, Fuxing Ye, Hewan Lu, Visualization of plastic flow in metal ultrasonic welding by adding interlayer, Journal of Manufacturing Processes 83 (2022) 571-575.

[13]Fuxing Ye, Zhi Lou, Yonghui Wang, Wensheng Liu, Wear mechanism of Ag as solid lubricant for wide range temperature application in micro-beam plasma cladded Ni60 coatings, Tribology International 167 (2022) 107402.

[14]Fuxing Ye, Fanwei Meng, Tianyuan Luo, Hang Qi, Ultrafast high-temperature sintering of high-entropy (La_0.2Nd_0.2Sm_0.2Eu_0.2Gd_0.2)₂Hf₂O₇ ceramics with fluorite structure, Ceramics International 48 (2022) 35649-35654.

[15]Fuxing Ye, Fanwei Meng, Tianyuan Luo, Hang Qi, Ultrafast high-temperature sintering of (Y_0.2Dy_0.2Er_0.2Tm_0.2Yb_0.2)₄Hf₃O₁₂ high-entropy ceramics with defective fluorite structure, Journal of the European Ceramic Society 42 (2022) 4686-4691.

[16]Fuxing Ye, Hewan Lu, Hang Qi, Joints formation and bonding mechanism of ultrasonic welded multi-strand single core copper cables with copper terminals, Materials Letters 327 (2022) 133015.

[17]Wenqi Yang, Fuxing Ye, Hang Qi, Phase stability and CMAS corrosion resistance of RETaO₄ (RE=Gd and Yb) at 1250℃, Ceramics International 48 (2022) 22179-22186.

[18]Hewan Lu, Fuxing Ye, Yonghui Wang, Orthogonal experiments and bonding analysis of ultrasonic welded multi-strand single core copper cables, Journal of Manufacturing Processes 78 (2022) 1-10.

[19]Fuxing Ye, Hewan Lu, Hang Qi, Joints formation and bonding mechanism of ultrasonic welded multi-strand single core copper cables with copper terminals[J]. Materials Letters, 2022, 327: 133015.

[20]Fuxing Ye, Zhi Lou, Yonghui Wang, Wensheng Liu, Wear mechanism of Ag as solid lubricant for wide range temperature application in micro-beam plasma cladded Ni60 coatings, Tribology International 167 (2022) 107402.

[21]Fuxing Ye, Yonghui Wang, Hewan Lu and Yongming Guo，Study on the bonding mechanism of multilayer copper with nickel sheet in ultrasonic welding process，Material Research Express, 9 (2022) 026527.

[22]叶福兴, 王永辉, 娄智, 激光增材制造过程中激光与粉末的相互作用研究现状，中国表面工程, 34(2)(2021) 1-21.

[23]Fuxing Ye, Fanwei Meng, Yihui Yuan, Shuai Yan, Jianxing Yu, A potential ZrO₂ doped scandium tantalite ceramics for thermal/environmental barrier coating material, Materials Chemistry and Physics 270 (2021) 124786.

[24]Wenqi Yang, Fuxing Ye, The mechanical and thermal properties, CMAS corrosion resistance, and the wettability of novel thermal barrier material GdTaO₄, Ceramics International 47 (2021) 28685–28697.

[25]Wenqi Yang, Fuxing Ye, The thermophysical properties and the molten CMAS resistance performance of Ytterbium Tantalate, Surface & Coatings Technology 423 (2021) 127584-127595.

[26]Fuxing Ye,Wenqi Yang, Shuai Yan and Jianxing Yu, The wettability and corrosion behaviors of CMAS on M-YTaO₄ at 1350℃, Journal Thermal Spray Technology 30(2021) 873-885.

[27]Fuxing Ye, Yu Yang, Zhi Lou, Lingzhi Feng, Lei Guo, Jianxing Yu, Microstructure and wear resistance of TiC reinforced AlCoCrFeNi_2.1 eutectic high entropy alloy layer fabricated by micro-plasma cladding, Materials Letters 284 (2021) 128859.

[28]Fuxing Ye, Yihui Yuan, Shuai Yan, Lei Guo, Jianxing Yu，High-temperature corrosion mechanism of a promising scandium tantalate ceramic for next generation thermal barrier coating under molten calcium–magnesium-aluminosilicate (CMAS)，Materials Chemistry and Physics 256 (2020) 123679.

[29]倪增磊, 杨嘉佳, 李帅, 王星星, 叶福兴, 金属薄材超声波点焊的研究进展， 焊接, 2020, (04): 33-41.

[30]Wenqi Yang, Fuxing Ye, Shuai Yan, Lei Guo, The corrosion behaviors of thermal barrier material of M-YTaO₄ attacked by CMAS at 1250℃, Ceramics International, 46 (2020) 9311-9318.

[31]Fuxing Ye, Zhipeng Jiao, Shuai Yan, Lei Guo, Lingzhi Feng, Jianxing Yu，Microbeam plasma arc remanufacturing: Effects of Al on microstructure, wear resistance, corrosion resistance and high temperature oxidation resistance of AlxCoCrFeMnNi high-entropy alloy cladding layer，Vacuum 174 (2020) 109178.

[32]Lei Guo, Hui Xin, Yanyan Li, Yang Yu, Fuxing Ye，Self-crystallization characteristics of calcium-magnesium-alumina- silicate (CMAS) glass under simulated conditions for thermal barrier coating applications，Journal of the European Ceramic Society, 40 (2020) 5683-5691.

[33]Zheng Yan, Lei Guo, Zhao Zhang, Xiaohui Wang, Fuxing Ye，Versatility of potential protective layer material Ti₂AlC on resisting CMAS corrosion to thermal barrier coatings，Corrosion Science, 167 (2020) 108532.

[34]Zenglei Ni, Jiajia Yang, Fuxing Ye, Microstructure and mechanical properties of copper to nickel ultrasonic spot welds, Materials Science & Engineering A, 796 (2020) 14020.

[35]Lei Guo, Hui Xin, Zhao Zhang, Fuxing Ye, Zheng Yan, Preparation of (Gd_0.9Sc_0.1)₂Zr₂O₇/YSZ thermal barrier coatings and their corrosion resistance to V₂O₅ molten salt, Surface & Coatings Technology 389 (2020) 125677.

[36]王瑞，叶福兴，前驱体溶液等离子喷涂参数对涂层形貌的影响及沉积行为机理研究，表面技术，48(4), 2019, 55-60.

[37]Fuxing Ye, Zhipeng Jiao, Yihui Yuan, Precipitation behaviors and properties of micro-beam plasma arc cladded CoCrFeMnNi high-entropy alloy at elevated temperatures. Materials Chemistry and Physics, 2019, 236, 121801.

[38]Fuxing Ye, Zhipeng Jiao, Yu Yang, Effect of medium temperature precipitation phase and Mn element diffusion mechanism on high temperature oxidation process of repair and remanufacture CoCrFeMnNi high-entropy alloy cladding. Materials Research Express, 2019, 6, 056521.

[39]Fuxing Ye, Zhipeng Jiao, Luyao Zhao, Effect of Y₂O₃ addition on the microstructure and properties of Ni60 additives by micro-plasma cladding. Materials Research Express, 2019, 6, 026562.

[40]Jiahao Duan, Fuxing Ye, Hongjian Zhao, The study of the tribological properties of TiAgN/W₂N coatings in a wide temperature range, Materials Research Express, 2019, 6, 086407.

[41]Pengbo Mi, Fuxing Ye, Influence of the Cu addition on the tribological properties of HVOF sprayed bimodal WC-Co coating. Materials Research Express, 6 (2019) 036408.

[42]Zenglei Ni, Fuxing Ye，Microstructure and mechanical properties of an ultrasonic spot-welded aluminum-to-aluminum joint: response to interlayer thickness，Materials, 12(3) (2019) 369.

[43]Lei Guo, Zheng Yan, Xue Dong, Xichun Liu, Fuxing Ye, Composition-microstructure-mechanical property relationships and toughening mechanisms of GdPO₄-doped Gd₂Zr₂O₇ composites, Composites Part B: Engineering, 161 (2019) 473-482.

学生招募

[1]热烈欢迎科技创新能力强、职业发展目标明确、勤奋务实，具有材料成型及控制工程、材料学、表面工程、机械制造等专业背景的学生咨询报考！聚焦航空航天、新兴电子、新能源汽车等国家重点领域的发展奉献力量！

[2]欢迎本科生加入课题组团队开展各类创新创业项目！