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魏志远

2025-06-30 文: 编辑:温馨 点击量:

       

姓名:魏志远

性别:

职称:讲师

学历学位:博士

硕/博士生导师:硕士生导师

研究方向:环境防护涂层与功能涂层;碳纤维复合材料;智能连接技术

电话:13279318783

E-mail:20240044@huat.edu.cn

个人简介

中共党员博士后硕士生导师,入选湖北汽车工业学院“高层次引进人才计划”A1类、西安交通大学“青年优秀人才支持计划”B类,西安交通大学材料科学与工程学院年度“学术新星”新质力材料发展联盟常务理事、膜材料组专家、金属材料组专家,能源环境材料与催化论坛学术委员,中国硅酸盐学会特陶分会青工委委员,国家自然科学基金评审专家,教育部学位与研究生教育发展中心评审专家库成员,Coatings期刊客座编辑、《材料保护》期刊青年编委先进材料智能连接与高端装备功能涂层研究团队骨干成员,主持并完成国家自然科学基金青年基金1项国家级、中国博士后面上基金1项国家级】高校博士科研启动金1项,先后参与国家重点研发计划、中央军委装备预研共用技术、国家自然科学基金等国家级纵向课题10余项J. Adv. Ceram.、J. Eur. Ceram. Soc.、Surf. Coat. Tech.等材料领域期刊上已发表SCI论文40余篇,其中第一作者23篇,通讯作者2篇,热点及高被引论文1篇,论文他引1000余次多篇论文被国际新闻网AIE遴选为工程领域卓越科学论文担任J. Therm. Spray Techn.、Opt. Laser Technol.、Ceram. Int.、材料导报》30余个期刊审稿人,被评为美国热喷涂学会会刊年度优秀审稿人受邀参加第二十一届全国高技术陶瓷学术年会、第十一届全国青年表面工程学术会议、中国稀土学会年会等领域影响力会议并做邀请报告



教学情况

主讲或参与讲授的本科生及研究生课程情况压力焊与钎焊》、《高能束焊接》、《弧焊电源》、《材料成型CAE》、《焊接结构》、《材料成型及控制工程专业认识实习




研究课题

主持或参加科研项目情况仅列主要课题

12021.01~2023.12 双陶瓷热障涂层局部片层界面强化设计及长寿命服役机理(52001248)国家自然科学基金青年基金,批准直接经费24.0主持【国家级】

22021.06~2023.06 晶须增强抗开裂的新型高隔热长寿命热障涂层(2021M692517)中国博士后面上基金,批准经费8.0主持【国家级】

3 2024.09~2028.08, 高隔热抗烧结新型双陶瓷热障涂层制备及长寿命服役机理(BK202468),高校博士科研启动金,批准经费20.0万元,主持

42020.10~2023.09      渗层组织/应力调控规律与抗氧化强化处理技术(2020YFB2010403)国家重点研发计划,批准经费278.0,参与/3【国家级】

52020.01~2022.12      航空发动机涡轮叶片环境障涂层(EBC)失效机理及安全评定研究HFZL2019CXY015),中国航空发动机集团产学研,批准经费300.0万,参与/3【国家级】

6)2021.12~2024.12 XXXX热/环境障涂层制备与应用技术(50922XXXXXX)中央军委装备发展部,批准经费350万,参与/3【国家级】

72021.12~2025.12 装备薄壁件高速低温喷涂修复技术(5090401XXXXX),中央军委装备发展部,批准经费800.0万元,参与/7【国家级】

82020.07~2021.12      可磨XXXX计算JM-202009001),中国航空制造技术研究院,批准经费48.0,参与/2【横向】

92020.07~2021.09      XXXX涂层应力模拟计算分析JM-202010006),中国航空制造技术研究院,批准经费52.0万,参与/2【横向】

10)2019.01~2020.12 计算XXXX模块(JZM-201907009-04),中国核工业集团有限公司,批准经费62.0万元,参与/2【国家级】

11)2017.06~2019.12 高超XXXX研究(JZM-20170707-7),国防科工局,批准经费80.0万元,参与/2【国家级】

12)2015.01~2017.12 基于微观力学的复合材料低速冲击损伤演化及剩余疲劳寿命预测(U1433119),国家自然科学基金联合基金,批准经费38.0万元,参与/3【国家级】



获奖及专利

1)西安交通大学材料科学与工程学院年度“学术新星”奖

2)美国热喷涂学会会刊年度优秀审稿人

3)中国稀土学会2020学术年会优秀口头报告奖

4)西安交通大学材料科学与工程学院优秀研究生奖

5)中国CAE技术协作社区平台技术邻Top50/300w优秀奖

6)指导本科生获第八届全国焊接大赛二等奖2项(第1、2指导教师各1项);


代表性论文


J. Adv. Ceram.、J. Eur. Ceram. Soc.Ceram. Int.、Surf. Coat. Tech.表面涂层领域专业期刊上已发表SCI论文40余篇,其中第一作者23篇,通讯作者2篇,热点及高被引论文1篇,论文他引1000余次以下只列第一或通讯作者论文)

1Zheng-Hao Li#, Zhi-Yuan Wei#, Xin-Yu Li#, et al. Matching design of porous microstructures for double-layered thermal barrier coatings composed of Gd2Zr2O7 and yttria-stabilized zirconia enables long protection. Ceramics International, https://doi.org/10.1016/j.ceramint.2025.05.234(In Press, 二区Top、IF:5.1)

2)Zhi-Yuan Wei, Yao Cai, Feng-Guang Li, Hai-Ming Huang, et al. Heterogeneous multilayered delamination of thermally grown oxide accelerating spallation of thermal barrier coatings. Ceramics International 50 (2024) 4930049310.(二区Top、IF:5.6)

3Zhang Wei-Wei, Wei Zhi-Yuan*, Xing Ya-Zhe, et al. The effect of pore morphology on thermal insulation properties of thermal barrier coatings. Materials Chemistry and Physics 325 (2024) 129729.(三区、IF:4.7)

4)Zhi-Yuan Wei, Guo-Hui Meng, Lin Chen, et al. Progress in ceramic materials and structure design towards advanced thermal barrier coatings. Journal of advanced ceramics 11 (2022) 985-1068.(一区、IF:16.6、热点及高被引论文)

5)Zhi-Yuan Wei, Hong-Neng Cai*, Sheng-Dun Zhao. Comprehensive understanding of horizontal and vertical crack effects on failure mechanism of lamellar structured thermal barrier coatings. Ceramics International 48 (2022) 8143–8154.(二区Top、IF:5.6)

6)Zhi-Yuan Wei, Hong-Neng Cai*, Sheng-Dun Zhao, Guang-Rong Li**, Wei-Wei Zhang, Adnan Tahir. Dynamic multi-crack evolution and coupling TBC failure together induced by continuous TGO growth and ceramic sintering. Ceramics International 48 (2022) 15913–15924.(二区Top、IF:5.6)

7)Zhi-Yuan Wei, Hong-Neng Cai*, Sheng-Dun Zhao. Study on spalling mechanism of APS thermal barrier coatings considering surface vertical crack evolution affected by surrounding cracks. Ceramics International 48 (2022) 11445–11455.(二区Top、IF:5.6)

8)Zhi-Yuan Wei, Wei-Wei Zhang*, Peng Yi. Simulation of thermal barrier coating spallation induced by the initiation/ growth/coalescence of internal crack and interfacial crack based on a real image model. Ceramics International 48 (2022) 24888-24897.(二区Top、IF:5.6)

9)Zhi-Yuan Wei, Hui Dong, Hong-Neng Cai*, Sheng-Dun Zhao. Cracking behavior and delamination mechanism of lamellar structured TBC with localized mixed oxides. Ceramics International 48 (2022) 26206-26216.(二区Top、IF:5.6)

10)Zhi-Yuan Wei, Yi-Jun Chai, Peng Yi, Gui-Hui Meng*, Wei-Wei Zhang, Stress profile and crack evolution in a three-dimensional (3D) thermal barrier coatings during isothermal cyclic test. Ceramics International 48 (2022) 30606-30620.(二区Top、IF:5.6)

11)Zhi-Yuan Wei, Xiao-Xue Dong, Hong-Neng Cai*, Guang-Rong Li, Sheng-Dun Zhao, Vertical crack distribution effect on the TBC delamination induced by crack growth from the ceramic surface and near the interface. Ceramics International 48 (2022) 33028-33040.(二区Top、IF:5.6)

12)Zhi-Yuan Wei, Yang Liu, Bo Cheng*, Adnan Tahir. Influence of non-uniform feature of thermally grown oxide thickness on the local stress state and cracking behavior in TBC. Surface & Coatings Technology 443 (2022) 128607.(二区Top、IF:6.1)

13)Zhi-Yuan Wei, Hong-Neng Cai*, Sheng-Dun Zhao. Assessment of stress characteristic and interfacial delamination in thermal barrier coatings considering the connected crack network. Surface & Coatings Technology 432 (2022) 128065.(二区Top、IF:6.1)

14)Zhi-Yuan Wei, Xiao-Xue Dong, Hong-Neng Cai*, Sheng-Dun Zhao. Influences of the near-spherical 3D pore on failure mechanism of atmospheric plasma spraying TBCs using a macro-micro integrated model. Surface & Coatings Technology 437 (2022) 128375.(二区Top、IF:6.1)

15)Zhi-Yuan Wei, Hong-Neng Cai*. Understanding the failure mechanism of thermal barrier coatings considering the local bulge at the interface betweenYSZ ceramic and bond layer. Materials 15 (2022) 275.(三区、IF:3.2)

16)Zhi-Yuan Wei, Hong-Neng Cai*, Chang-Jiu Li. Comprehensive dynamic failure mechanism of thermal barrier coatings based on a novel crack propagation and TGO growth coupling model. Ceramics International 44 (2018) 22556-22566.(二区Top、IF:5.6)

17)Zhi-Yuan Wei, Hong-Neng Cai*, Tahir Adnan, Wei-Wei Zhang*, Xue-Feng Li, Yan Zhang, Ya-Ping Huang, Yang Liu. Stress states in plasma-sprayed thermal barrier coatings upon temperature cycling: Combined effects of creep, plastic deformation, and TGO growth. Ceramics International 45 (2019) 19829-19844.(二区Top、IF:5.6)

18)Zhi-Yuan Wei, Hong-Neng Cai*, Rui-Xue Feng, Jing-Yu Su. Dynamic crack growth mechanism and lifetime assessment in plasma sprayed thermal barrier system upon temperature cycling. Ceramics International 45 (2019) 14896-14907.(二区Top、IF:5.6)

19)Zhi-Yuan Wei, Li-Shuang Wang*, Hong-Neng Cai**, Guang-Rong Li***, Xue-Feng Chen, Wei-Xu Zhang. Dominant effect of oriented 2D pores on heat flux in lamellar structured thermal barrier coatings. Ceramics International 45 (2019) 17029-17039.(二区Top、IF:5.6)

20)Zhi-Yuan Wei, Hong-Neng Cai*. Stress states and crack behavior in plasma sprayed TBCs based on a novel lamellar structure model with real interface morphology. Ceramics International 45 (2019) 16948-16962.(二区Top、IF:5.6)

21)Zhi-Yuan Wei, Hong-Neng Cai*, Guo-Hui Meng, Adnan Tahir, Wei-Wei Zhang**. An innovative model coupling TGO growth and crack propagation for the failure assessment of lamellar structured thermal barrier coatings. Ceramics International 46 (2020) 1532-1544.(二区Top、IF:5.6)

22)Zhi-Yuan Wei, Hong-Neng Cai. Comprehensive effects of TGO growth on the stress characteristic and delamination mechanism in lamellar structured thermal barrier coatings. Ceramics International 46 (2020) 2220-2237.(二区Top、IF:5.6)

23)Zhi-Yuan Wei, Bo Cheng*, Jun Wang, Mei-Jun Liu**, Hong-Neng Cai***. Extend the thermal cyclic lifetime of La2Zr2O7/YSZ DCL TBCs by reducing modulus design on a toughening ceramic surface. Surface & Coatings Technology 374 (2019) 134-143.(二区Top、IF:6.1)

24)Zhi-Yuan Wei, Hong-Neng Cai*, Rui-Xue Feng, He Zhang. The combined effect of creep and TGO growth on the cracking driving force in a plasma-sprayed thermal barrier system. Journal of Thermal Spray Technology 28 (2019) 1000-1016.(三区、IF:3.3)






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