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魏志远

2024-08-19  

       

姓名:魏志远

性别:

职称:讲师

学历学位:博士

硕/博士生导师:

研究方向:面向航空航天/汽车领域的金属表面热防护涂层和环境障涂层、碳纤维复合材料冲击剩余寿命及焊接构件服役性能演化

电话:

E-mail:20240044@huat.edu.cn

 

 

个人简介

中共党员博士后,博士毕业于西安交通大学bet体育365官网正规硕博连读,毕业后留校工作,同时从事博士后研究工作,2024.05博士后出站,2024.06全职进入BET体育365投注官网bet体育365官网正规工作至今。主持国家自然科学基金青年基金1项、中国博士后面上基金1项,并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课题10余项;在J. Adv. Ceram.、Ceram. Int.、Surf. Coat. Tech.等材料领域期刊上已发表SCI论文30余篇,其中第一作者22篇,热点及高被引论文1篇,累计影响因子超110,论文他引700余次,并入选西安交通大学bet体育365官网正规年度“学术新星”(每年1-3名)。兼任中国硅酸盐学会特种陶瓷青委会委员,连任《材料保护》杂志青年编委担任J. Therm. Spray Techn.、Opt. Laser Technol.、Ceram. Int. 等多个期刊审稿人,被评为美国热喷涂学会会刊年度优秀审稿人入选2023年全国本科毕设论文抽检评审专家库专家;受邀参加第十一届全国高技术陶瓷学术年会并做邀请报告。



 

教学情况

主讲或参与讲授的本科生及研究生课程情况暂无




 

研究课题

主持或参加科研项目情况

1. 2021.01~2023.12 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,批准经费24万主持

2. 2021.06~2023.06 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8万主持

3. 2020.10~2023.09      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278万,参与/3

4. 2020.01~2022.12      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300万,参与/3

5. 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

6.2020.07~2021.12      可磨XXXX计算JM-202009001),中国航空制造技术研究院,批准经费48万,参与/2

7.2020.07~2021.09      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52万,参与/2



 

获奖及专利

1.西安交通大学bet体育365官网正规年度“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bet体育365官网正规优秀研究生奖

5.中国CAE技术协作社区平台技术邻Top50优秀奖


 

代表性论文


在J. Adv. Ceram.、Ceram. Int.、Surf. Coat. Tech.等表面涂层领域专业期刊上已发表SCI论文30余篇,其中第一作者22篇,热点及高被引论文1篇,累计影响因子超110,论文他引700余次

1.Zhang 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:4.3)

2. 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:18.6、热点及高被引论文)

3. 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:5.1)

4. 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:5.1)

5. 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:5.1)

6. 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:5.1)

7. 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:5.1)

8. 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:5.1)

9. 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:5.1)

10. 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:5.3)

11. 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:5.3)

12. 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:5.3)

13. 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:3.1)

14. 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:5.1)

15. 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:5.1)

16. 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:5.1)

17. 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:5.1)

18. 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:5.1)

19. 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:5.1)

20. 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:5.1)

21. 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:5.3)

22. 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:3.2)






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