西安交通大学机械工程学院导师教师师资介绍简介-周晋 Zhou Jin

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Welcome - 周晋 Zhou Jin基本信息
周晋 教授、博士生导师
Professor in Mechnical Engineering
Honorary Research Fellow at University of Liverpool

联系方式

Email：jin.zhou@xjtu.edu.cn
地址：西安交通大学曲江校区南一楼A324
中国西部科技创新港力行楼2-6024
邮编：710049
Email：jin.zhou@imperial.ac.uk
Address: City and Guilds Building, South Kensington Campus,Imperial College London,SW7 2AZ, London
Webs

web:jin.zhou.gr.xjtu.edu.cn
https://cimcomp.ac.uk/people/jin-zhou/
https://www.liverpool.ac.uk/engineering/staff/jin-zhou/

招生
欢迎有志于航空复合材料研究的学生加入，航空、机械、力学、材料等工程背景均可报名！

报考专业代码
单位名称：西安交通大学，单位代码：10698
招收学生学科背景：0801力学，0802机械工程，0805材料科学与工程，0825航空宇航科学与技术
西安交通大学机械工程学院博士课题专业代码及研究方向：
001机械工程学院，0 8 0 2 0 0机械工程
05(全日制)轻质金属成形工艺与结构轻量化
48(全日制)复合材料成形与3D打印制造
49(全日制)功能/智能复合材料设计与制造
95(全日制)航空复合材料轻量化结构设计制造
97(非全日制)机械工程

我的新闻
欢迎报考航空复合材料研究生
2020-02-03

英国诺丁汉大学陈帅博士学术交流 Seminar: Dr. Shuai Chen (University of Nottingham)
2019-12-23

英国帝国理工刘啸川博士学术交流 Seminar: Dr. Xiaochuan Liu (Imperial College London)
2019-12-17

英国利物浦大学官忠伟教授学术报告并受聘为讲席教授
2019-10-25

英国帝国理工学院刘海宝研究员讲座并受聘为联合导师
2019-10-07

英国帝国理工学院John Dear教授讲座并受邀为荣誉教授
2019-10-01

更多新闻>>

教育和工作经历
周晋，国家青年特聘教授，博士生导师，利物浦大学荣誉研究员(Honorary Research Fellow)。博士毕业于英国利物浦大学，先后在剑桥大学、帝国理工从事航空复合材料冲击动力学、轻量化结构设计优化、先进制造及快速成型理论等方向研究工作。承担英国EPSRC学术课题及工程项目10多项，主要成果发表于Composites Science and Technology、Composite Structures、Composite Part B等复合材料领域知名期刊，在商用客机轻量化抗冲击吸能结构及快速成型制造方面获工程应用。在英国工业界任高级结构工程师8年，主持结构力学优化及摩擦焊接增材制造等工业研发项目，取得多个国家工业技术许可。

研究团队现有海外合作导师6位，助理教授5位，研究生5位。特邀英国帝国理工John P. Dear教授为荣誉教授、Khalifa大学Wesley J. Cantwell教授为客座教授、利物浦大学Zhongwei Guan教授为讲席教授。邀请帝国理工助理教授Emilio Martínez-Pa?eda博士,帝国理工研究员Haibao Liu博士, 伦敦大学玛丽女王学院讲师Wei Tan博士为博士生联合导师, 共同指导博士后、博士研究生，并选送优秀研究生同英国名校联合培养。

科研骨干及博士后研究员来自帝国理工、中国科学院、西北工业大学、四川大学、湖南大学等知名科研机构。目前承担国家自然科学基金及航空航天等学术及工程课题6项，研究内容包括轻航空抗冲动力学，轻量化吸能结构、夹心结构、层合板结构、可变性折叠结构、复合材料修复及链接、柔性复合材料、储能功能复合材料、多尺度有限元仿真、深度学习等课题。

研究领域
研究方向

1. 航空复合材料冲击动力学：研究以夹芯结构(Sandwich Structures）、纤维增强金属层合板(Fiber Metal Laminates)、碳纤维层合板（Carbon Fiber Laminates)为代表的抗冲击性能评估及设计优化。
2.复合材料设计制造一体化：轻量化结构设计及抗冲击吸能结构优化，先进制造及缺陷控制理论、复合材料增材制造及3D打印技术（Lightweight Structures, Energy-Absorbing Behaviour, Composite Forming Limit Diagram,BirdStrike, Failure mechanism）
3. 材料结构力学、摩擦焊机技术、有限元数值仿真多尺度建模、(Structural Mechanics,Finite Element Method,Multiscaleand Friction Welding Technology)
代表成果

1. Zhou J., Hassan M.Z, Guan ZW and Cantwell W.J. The Low Velocity Impact Response of Foam-based Sandwich Panels.Composites Science and Technology. 2012; 72(14):1781-1790.
2.Zhou J.,Guan Z.W., and Cantwell W.J., The Impact Response of Graded Foam Sandwich Structures.Composite Structures. 2013; 97:370-377.
3.Zhou J.,Guan Z.W., Cantwell W.J. and Liao Y., The Energy-Absorbing Behaviour of Foam Cores Reinforced with Composite Rods.Composite Structures. 2014; 116: 346–356.
4. Al Antali A., Umer R.,Zhou J. and Cantwell W.J. The Energy-absorbing Properties of Composite Tube-Reinforced Aluminum Honeycomb.Composite Structures. 2017; 176:630-639.
5.Zhou J.,Guan Z.W., and Cantwell W.J. The Energy-Absorbing Behaviour of Composite Tube-reinforced Foams.Composites Part B.2018;139, 227-237.
6. Zhou J.,Guan Z.W., and Cantwell W.J.,Scaling Effectsin the Mechanical Response of Sandwich Structures Based on Corrugated Composite Cores.Composites Part B. 2016; 93: 88-96.
7.Umer R., Rao S.,Zhou J.,Guan Z. and Cantwell W.J. The Low Velocity Impact Response of Graphene Modified Composites Manufactured using Automated Dry Fiber Placement. Polymers and Polymer Composites, 2016; 24.4: 233-240.
8.Umer R., Rao S.,Zhou J., Guan Z. and Cantwell W.J. The Mechanical Properties of 3D Woven Composites. Journal of Composite Materials. 2017;5(12):1703-1716.
9. Zhou J., Guan Z.W., and Cantwell W.J., The Influence of Strain-rate on The erforation Resistance of Fiber Metal Laminates. Composite Structures. 2015; 125:247–255.
10. Kaboglu Cihan, Mohagheghian Iman,Zhou Jin, Guan Zhongwei, Cantwell Wesley, John Sabu, Blackman Bamber, Kinloch Anthony, Dear John. High-velocity impact deformation and perforation of fibre-metal laminates. Journal of Materials Science 2018;53(6), 4209-4228.
成果主页：

https://www.liverpool.ac.uk/engineering/staff/jin-zhou/publications/
https://cimcomp.ac.uk/research/can-a-composite-forming-limit-diagram-be-constructed/

站点计数器

研究课题 - 周晋 Zhou Jin研究课题项目
研究课题项目

在研课题项目：
Project 1:The Low Velocity Impact Response of Foam-based Sandwich Panels.
Project 2: The Energy-Absorbing Behaviour of Sandwiches Reinforced with Composite Rods and tubes
Project 3: The Mechanical Response of Corrugated Composite Cores Structures
Project 4: The Perforation Resistance of Carbon Fiber Laminates
Project 5: The Impact Resistance of Fiber Metal Laminate
Project 6: Feasibility Study Application – Composite forming limit diagram
Project 7: 3D Printed Composite Structures
已完成课题项目

1. 课题:复合材料夹心结构抗冲击性能及其能量吸收特性(2010-2020)
Project 1:The Low Velocity Impact Response of Foam-based Sandwich Panels.
[1] Zhou J., Hassan M.Z, Guan ZW and Cantwell W.J. The Low Velocity Impact Response of Foam-based Sandwich Panels. Composites Science and Technology. 2012; 72(14):1781-1790.
[2] Zhou J., Guan Z.W., and Cantwell W.J., The Perforation Resistance of Sandwich Structures Subjected to Low Velocity Projectile Impact Loading. Aeronautical Journal. 2012; 116:1247-1262.
[3] Zhou J, Guan Z.W., and Cantwell W.J., The Impact Response of Graded Foam Sandwich Structures. Composite Structures. 2013; 97:370-377.
[4] Zhou J.*, Guan Z.W., and Cantwell W.J., Scaling Effects in the Mechanical Response of Sandwich Structures Based on Corrugated Composite Cores. Composites Part B. 2016; 93: 88-96.
[5] Haldar A. K., Zhou J. and Guan Z.W. Energy absorbing characteristics of the composite contoured-core sandwich panels. Materials Today Communications. 2016; 8: 156-164.
2. 项目课题:金属层合板抗冲击性能及动态响应性能研究 (帝国理工 2012-2019)
Project 2: The High Velocity Impact on Carbon Fiber Laminates (Imperial College)
[6] Zhou J., Guan Z.W., and Cantwell W.J., The Influence of Strain-rate on The Perforation Resistance of Fiber Metal Laminates. Composite Structures. 2015; 125:247–255.
[7] Kaboglu C., Mohagheghian I., Zhou J, Guan ZW, Cantwell WJ, John Sabu, Blackman Bamber, Kinloch Anthony, Dear John. High-velocity impact deformation and perforation of fibre-metal laminates. Journal of Materials Science 2018;53(6), 4209-4228.
[8] Liu, H., Liu, J., Ding, Y., Zhou, J., Kong, X., Harper, L. T., Bamber R. K. Blackman, Brian G. Falzon, Dear, J. P. (2020). Modelling damage in fibre-reinforced thermoplastic composite laminates subjected to three-point bend loading. Composite Structures, 236, 111889. doi:10.1016/j.compstruct.2020.111889
[9] Liu H., Zhou J. and Dear J., Effects of a coupling agent on the crush behaviour of flax fibre reinforced composite laminates: an experimental study, 1st European Conference on Crashworthiness of Composite Structures (ECCC-1), Belfast, UK, November 2019.
[10] Liu, H., Liu, J., Ding, Y., Zheng, J., Kong, X., Zhou, J., . . . Dear, J. P. (2020). The behaviour of thermoplastic and thermoset carbon fibre composites subjected to low-velocity and high-velocity impact. Journal of Materials Science, 55(33), 15741-15768. doi:10.1007/s10853-020-05133-0
[11] Liu, H., Liu, J., Ding, Y., Zhou, J., Kong, X., Blackman, B. R. K., . . . Dear, J. P. (2020). Effects of Impactor Geometry on the Low-Velocity Impact Behaviour of Fibre-Reinforced Composites: An Experimental and Theoretical Investigation. Applied Composite Materials, 27(5), 533-553. doi:10.1007/s10443-020-09812-8
[12] Liu, H., Liu, J., Kaboglu, C., Zhou, J., Kong, X., Blackman, B. R. K., . . . Dear, J. P. (2020). The behaviour of fibre-reinforced composites subjected to a soft impact-loading: An experimental and numerical study. Engineering Failure Analysis, 111, 104448. doi:10.1016/j.engfailanal.2020.104448
[13] Liu, H., Liu, J., Ding, Y., Zhou, J., Kong, X., Harper, L. T., . . . Dear, J. P. (2020). Modelling damage in fibre-reinforced thermoplastic composite laminates subjected to three-point bend loading. Composite Structures, 236, 111889. doi:10.1016/j.compstruct.2020.111889
3. 项目课题:复合材料碳纤维杆及碳纤维管抗冲击增强特性及能量吸收性能（2013-2020）
Projects 3: The Energy-Absorbing Behaviour of Sandwiches Reinforced with Composite
[14] Zhou J., Guan Z.W., Cantwell W.J. and Liao Y., The Energy-Absorbing Behaviour of Foam Cores Reinforced with Composite Rods. Composite Structures. 2014; 116: 346–356.
[15] Zhou J., Guan Z.W., and Cantwell W.J., Modelling of the Compression Behavior of Foam Cores Reinforced with Composite Rods. Polymer Composites. 2015.DOI: 10.1002/pc.23812.
[16] Al Antali A., Umer R., Zhou J.* and Cantwell W.J. The Energy-absorbing Properties of Composite Tube-Reinforced Aluminum Honeycomb. Composite Structures. 2017; 176:630-639.
[17] Zhou J. *, Guan Z.W., and Cantwell W.J. The Energy-Absorbing Behaviour of Composite Tube-reinforced Foams. Composites Part B. 2018;139, 227-237. doi:10.1016/j.compositesb.2017.11.066
[18] Alia, R. A., Rao, S., Umer, R., Zhou, J., Zheng, C., Guan, Z., & Cantwell, W. J. The crushing characteristics of reinforced Nomex honeycomb. Journal of Reinforced Plastics and Composites, 2018; 37(20), 1267-1276.
[19] Xin, Z., Duan, Y., Zhou, J. & Xiao, H. Effect of tailored plies on the energy absorption capability of square CFRP tubes with discontinuous fibers. Composite Structures; 2019; 209,150-159.
[20] Alia, R. A., Zhou, J. *, Guan, Z., Duan Y, Qin Q. & Cantwell, W. J. (2020). The effect of loading rate on the compression properties of carbon fibre-reinforced epoxy honeycomb structures. Journal of Composite Materials. 2020. 236, 111889. doi:10.1016/j.compstruct.111889
[21] Liu H., Zhou J. and Dear J.P., Effects of a coupling agent on the crush behaviour of flax fibre reinforced composite laminates: an experimental study, 1st European Conference on Crashworthiness of Composite Structures (ECCC-1), Belfast, UK, November 2019.
[22] Alia, R. A., Zhou, J., Guan, Z. W., Qin, Q., Duan, Y., & Cantwell, W. J. (2020). The effect of loading rate on the compression properties of carbon fibre-reinforced epoxy honeycomb structures. JOURNAL OF COMPOSITE MATERIALS, 54(19), 2565-2576. doi:10.1177/002**64
[23] Xin, Z., Duan, Y., & Zhou, J. (2020). Energy absorption properties of CFRP composites tube with discontinuous plies. In ECCM 2018 - 18th European Conference on Composite Materials.
4. 课题:碳纤维三维编织层合板抗冲击性能研究（2015-2018）
Project 4: The Perforation Resistance of Carbon Fiber Laminates (The University of Liverpool)
[24] Umer R., Rao S., Zhou J., Guan Z. and Cantwell W.J. The Low Velocity Impact Response of Graphene Modified Composites Manufactured using Automated Dry Fiber Placement. Polymers and Polymer Composites, 2016; 24.4: 233-240.
[25] Umer R., Rao S., Zhou J., Guan Z. and Cantwell W.J. The Mechanical Properties of 3D Woven Composites. Journal of Composite Materials. 2017;5(12):1703-1716.
5. 可行性研究：复合材料成型缺陷控制可行性研究（剑桥大学2018-2019）
Project 5: Composite forming limit diagram-University of Cambridge - EPSRC Feasibility Study Application
[26] Viisainen V., Zhou J. and Sutcliffe M. Wrinkle Formation Characterisation During the Forming of Non-Crimp Fabric. The 11th International Conference on Manufacturing Advanced Composites, Nottingham, UK 2018; 10-12th July.
[27] Viisainen Verner, Zhou Jin and Sutcliffe Michael. Development of a Composite Forming Limit Diagram: A Feasibility Study. The 22nd International Conference on Composite Materials Melbourne (ICCM22), Australia, August 2019.
6. 课题：复合材料连接与修复（利物浦大学2016-2020）
Project 6: Composite joint and repairing
[28] Sun, C., Zhao, W., Zhou, J., Altenaiji, M., Cantwell, W. J., Wang, Q. Y., & Guan, Z. W. (2021). Mechanical behaviour of composite laminates repaired with a stitched scarf patch. Composite Structures, 255, 112928. doi:10.1016/j.compstruct.2020.112928.
[29] Chen, C., Sun, C., Han, X., Hu, D., Zhou, J., & Guan, Z. (2020) The structural response of the thermoplastic composite joint subjected to out-of-plane loading. International Journal of Impact Engineering, 103691. doi:10.1016/j.ijimpeng.2020.103691
[30] Ji, F., Liu, C., Hu, Y., Xu, S., He, Y., Zhou, J., & Zhang, Y. (2020). Chemically Grafting Carbon Nanotubes onto Carbon Fibers for Enhancing Interfacial Properties of Fiber Metal Laminate. Materials, 13(17), 3813. doi:10.3390/ma**

国际会议 Conference

1. Zhou J.,Guan Z.W., and Cantwell W.J., Numerical Modelling of Impact Response of PVC Foam Based Sandwich Panels, Proceedings of the 20thUK Conference of the Association for Computational Mechanics in Engineering (ACME12), 2012; pp. 215-218.
2. Zhou J., Hassan, M.Z., Guan Z.W. and Cantwell W.J. Modelling the Low Velocity Impact Response of Foam-based Sandwich Structures. Proceedings of 33rd International Technical Conference. SAMPE Europe; Paris Porte de Versailles, France, 2012; pp 10.
3.Zhou J., Guan Z.W. and Cantwell, W.J., Modelling Graded Foam-Based Sandwich Structures Subjected to Projectile Impact, Proceedings of the International Conference on Computational Mechanics (CM13), Durham, UK, 2013; pp66
4.Zhou J., Guan Z.W., and Cantwell W.J., Numerical Modelling Graded Foam-Based Sandwich Structures Subjected to Impact, Proceedings of the 19th International Conference on Composite Materials (ICCM19), Montreal, Canada, 2013; pp6597-6605.
5.Zhou J., Guan Z.W., and Cantwell W.J., The Compressive Damage of Fibre Rod Reinforced PVC Foam Cores for Energy Absorption Applications, Proceedings of the 1st IFSEEM International Forum on Special Equipment and Engineering Mechanics Nanjing, P. R. China, July 10-12, 2013; pp77-81
6.Zhou J., Cantwell W.J. and Guan Z.W., Numerical Modelling of Perforation Resistance of Foam-Based Sandwich Panels, Proceedings of the 19th International Conference on Composite Materials (ICCM19), Montreal, Canada, 2013; pp6568-6576.
7.Guan, Z.W.,Zhou J., and Cantwell W.J., Modelling Structural Behaviour of PVC Foam Sandwich Panels Reinforced by CFRP, Proceedings of the 19th International Conference on Composite Materials (ICCM19), Montreal, Canada 2013; pp7516-7523.
8.Zhou J., Guan Z.W. and Cantwell, W.J., Modelling Compressive Crush of Composite Tube Reinforced Foam Sandwiches. The 5th International Conference on Computational Methods, Cambridge, England, 28-30th July, 2014. ScienTech Publishing, Cambridge UK. 2014; Paper ID 151. (Best Paper Award)
9.Zhou J., Guan Z.W. and Cantwell, W.J., Numerical Modelling of Perforation Impact Damage of Fibre Metal Laminates. The 5thInternational Conference on Computational Methods, Cambridge, England, 28-30th July, 2014. ScienTech Publishing, Cambridge UK. 2014, Paper ID 152.
10.Zhou J.,Umer R.,Guan Z.W. and Cantwell W.J., The Low Velocity Impact Response of Sandwich Structures with Graded Foam Cores. Proceedings of the 20thInternational Conference on Composite Materials (ICCM20), Copenhagen, Denmark, 2015. 19-24thJuly.
11.Zhou J., Z. Guan, Umer R., Balawi S. and Cantwell W.J. Scaling Effects in the Compression Response of Sandwich Structures with Corrugated Composite Cores. Proceedings of the 17thEuropean Conference on Composite Materials (ECCM17), Munich, Germany, 2016, 26-30thJune.
12.Zhou J., Kaboglu C., Mohagheghian I., Guan Z., Dear J. P. and Cantwell W.J. The High Velocity Impact Resistance of Fiber Metal Laminates. Proceedings of the 21stInternational Conference on Composite Materials, Xi’an, China 2017.
13. Viisainen V., Zhou J. and Sutcliffe M. Wrinkle Formation Characterisation During the Forming of Non-Crimp Fabric. Proceedings of The 11th International Conference on Manufacturing Advanced Composites, Nottingham, UK 2018; 10-12th July.

科研招生 - 周晋 Zhou Jin研究队伍

研究生联合导师

professerJonh dear professer Wesley-cantwell professer Zhongwei guan

1. 英国帝国理工学院 John Dear 教授

英国帝国理工学院 John Dear 教授
研究方向：航空复合材料冲击动力学研究、鸟撞评估及仿真
受聘于西安交通大学荣誉教授，博士生联合培养指导导师，共同指导复合材料冲击动力学方向。
Email:wesley.cantwell@ku.ac.ae

（https://www.imperial.ac.uk/people/j.dear）
2. 哈利法科学技术大学Wesley J. Cantwell教授

Khalifa University， Wesley Cantwell教授
研究方向：复合材料先进制造及结构设计

（https://www.ku.ac.ae/academics/college-of-engineering/people/prof-wesley-cantwell/）
3. 英国利物浦大学 Zhongwei Guan 教授

利物浦大学，Zhongwei Guan教授
研究方向：复合材料仿真及多尺度建模
Email：Zhongwei.Guan@liverpool.ac.uk
（https://www.liverpool.ac.uk/engineering/staff/zhongwei-guan/）

研究领域及课题方向

主要方向为航空复合材料冲击动力学、轻量化结构设计及失效机理、设计制造及功能结构一体化、缺陷控制理论及数值仿真优化。

(1)航空复合材料冲击动力学：研究以夹芯结构(Sandwich Structures）、纤维增强金属层合板(Fiber Metal Laminates)、碳纤维层合板（Carbon Fiber Laminates)为代表的抗冲击性能。

(2)轻量化结构设计及抗鸟撞冲击评估：冲击吸能结构、失效机理及鸟撞评估（Lightweight Structures, Energy-Absorbing Behaviour, BirdStrike, Failure mechanism.）

(3)复合材料设计制造一体化、结构功能一体化：先进制造及缺陷控制理论、复合材料增材制造、石墨烯增韧、新能源储能等特殊功能研究。

(4)材料成型理论及缺陷控制、多尺度建模及数值仿真（Composite Forming Limit Diagram，Multiscale Finite Element Method）

(5)结构力学及摩擦焊机技术（Structural Mechanics and Friction Welding Technology）

招生信息

团队学术骨干

刘啸川博士，助理教授 贾璞博士，助理教授 张迪博士，助理教授 D.Dhamodharan博士，助理教授

刘啸川博士、助理教授 Email:liuxiaochuan2020@xjtu.edu.cn

刘啸川博士，于2019年获得伦敦帝国理工学院博士学位后，以博士后研究员身份继续从事轻量化设计与制造，具体研究方向包括了以数据为导向的轻量化成形工艺、材料模型和多功能数值仿真模拟等。在此之前，刘啸川分别于2015年获得伦敦帝国理工学院硕士学位、2014年获得谢菲尔德大学学士学位。研究期间，共发表论文20余篇，获得国际专利3项，参与国际科研项目4项。
教育经历
2009.04-2012.03 新加坡南洋理工学院，制造工程
2012.09-2014.06 英国谢菲尔德大学，机械工程，学士
2014.10-2015.09 英国帝国理工学院，机械工程，硕士
2016.01-2019.12 英国帝国理工学院，机械工程，博士

工作经历
2019.01-2020.01 英国帝国理工学院，助理研究员
2020.02-2020.08 英国帝国理工学院，博士后研究员
2020.09-至今西安交通大学，助理教授

研究方向:
轻量化设计与制造：高强轻质合金热成形工艺的设计及开发
多功能数值仿真模拟：热成形数值仿真模拟以预测材料的塑性形变、成形极限、成形后强度等性能
界面热传导与摩擦：实时热传导系数和摩擦系数的建模和预测

高强轻质薄壁构件产值：2025年约为1万亿人民币

贾璞博士、助理教授 Email:p.jia@outlook.com

贾璞博士，助理教授。四川省力学学会会员，欧洲结构完整性协会(European Structural Integrity Society, ESIS)会员。2014年获得四川大学工学学士学位（工程力学专业），2019年12月获得四川大学工学博士学位（安全科学与减灾专业），2018-2019年在英国利物浦大学工学院复合材料轻量化结构课题组联合培养一年，2020年5月加入西安交通大学机械工程学院先进复合材料与结构课题组。
研究方向
复合材料结构冲击损伤行为
复合材料多尺度分析

张迪博士、助理教授 Email:zhangdi0719@xjtu.edu.cn

教育经历
2014.03-2020.07 西北工业大学，航空学院，固体力学，博士
2011.09-2014.03 西北工业大学，航空学院，固体力学，博士
2007.09-2011.07 西北工业大学，航空学院，飞行器设计与工程，学士
工作经历
2020.07-至今西安交通大学，助理教授

研究领域
瞄准国内外飞行器复合材料结构制造、设计与分析技术发展前沿，以飞行器结构强度技术发展中的关键基础理论与核心技术为牵引，着力解决飞行器复合材料结构设计和制造中面临的关键强度技术问题，壮大学科实力，为未来大中型运输机、新一代战机和空天飞行器等国家重大供基础保障和技术支撑。
研究领域包括包括但不限于：复合材料结构的静力、连接、疲劳、耐久性、损伤容限和综合环境下力学行为分析、结构功能一体化设计。

研究方向:
复合材料冲击动力学，
复合材料轻量化及结构功能一体化设计

复合材料应用潜力巨大
我国复合材料产业与国际先进水平存在较大差距

Duraisami Dhamodharan 博士，助理教授

毕业于中国科学院

2020级研究生

张温馨博士生刘慧博士生宋心仪硕士生刘鑫硕士生齐江伟硕士生
张温馨
研究方向：航空复合材料的冲击损伤研究及轻量化设计
刘慧
研究方向：电动或混合动力飞机结合电池及功能结构一体化材料

宋心仪
研究方向：柔性手机屏幕冲击损伤分析及折纸机构复合材料
刘鑫
研究方向：3D打印复合材料吸能结构设计及优化
齐江伟
研究方向：复合材料吸能管与夹芯结构板冲击

Jin Zhou - 周晋 Zhou Jin(2.)Positions

Professor in Composite Materials at XJTU
Honorary Research Fellow at UoL
Member of SAMPE, IET

(7.)Contact

E-mail：jin.zhou@xjtu.edu.cn
jin.zhou@liverpool.co.uk

(4.)Honors
作者还未对该模块添加任何内容.

(1.)Basic Information
Dr. Jin Zhou is Professor in School of Mechanical Engineering at Xi’an Jiaotong University working on composites and lightweight structures. He obtained his Master’s degree in Aerospace and Mechanical System Engineering in 2009 and PhD degree in Aerospace Composites in 2015 from the University of Liverpool. After received his PhD degree, he continues his researches as an Honorary Research Fellow under Dr Zhongwei Guan’s guidance at the University of Liverpool. He has been working on internal and external collaboration researches with Professor Wesley Cantwell at Khalifa University and Professor John Dear at Imperial College London. The current collaborative projects include high velocity impact on sandwich structures, low velocity impact on fiber metal laminates, repairing of damaged composite laminates. He has completed a number of collaborative projects on characterization of the material strain rate effect on FML structures, scaling effects in the mechanical response of corrugated composite cores structures and 3D woven carbon composite laminates which is jointly-funded as part of Aerospace Research and Innovation Centre Programme by Mubadala Aerospace and Khalifa University. He has also been working on collaboration with Imperical College Londongto investigate the oblique impact and high velocity impact on fibre metal laminates from September 2015. He has delivered outstanding academic achievements in the science of composite materials with excellent track records of reserach output and high quality publication. He has published highly cited research papers on the top SCI international journals,such as Composite Science and Technology, Composite Structures and Composite Part B: Engineering.
He also worked as a Research Associate working on composite forming in Department of Engineering at the University of Cambridge between 2018 and 2019. Prior to returning to academic research at Cambridge, he was a Senior Structural Engineer working on friction welding and structural mechanics in industry for eight years between 2010 and 2018. He managed the technical department and obtained a number of industrial approvals for friction welding projects following international industrial standardization for 4 branch companies in United Kingdom and over 7 overseas branches in worldwide. His interests include the impact response of composite materials, sandwich structures, hybrid metal-composite structures, lightweight structures for energy absorption and composites forming.
Personal page https://www.liverpool.ac.uk/engineering/staff/jin-zhou/publications/

(5.)Scientific Research

SelectedPublications

1. Zhou J., Hassan M.Z, Guan ZW and Cantwell W.J. The Low Velocity Impact Response of Foam-based Sandwich Panels.Composites Science and Technology. 2012; 72(14):1781-1790.
2.Zhou J.,Guan Z.W., and Cantwell W.J., The Impact Response of Graded Foam Sandwich Structures.Composite Structures. 2013; 97:370-377.
3.Zhou J.,Guan Z.W., Cantwell W.J. and Liao Y., The Energy-Absorbing Behaviour of Foam Cores Reinforced with Composite Rods.Composite Structures. 2014; 116: 346–356.
4. Al Antali A., Umer R.,Zhou J. and Cantwell W.J. The Energy-absorbing Properties of Composite Tube-Reinforced Aluminum Honeycomb.Composite Structures. 2017; 176:630-639.
5.Zhou J.,Guan Z.W., and Cantwell W.J. The Energy-Absorbing Behaviour of Composite Tube-reinforced Foams.Composites Part B.2018;139, 227-237.
6. Zhou J.,Guan Z.W., and Cantwell W.J.,Scaling Effectsin the Mechanical Response of Sandwich Structures Based on Corrugated Composite Cores.Composites Part B. 2016; 93: 88-96.
7.Umer R., Rao S.,Zhou J.,Guan Z. and Cantwell W.J. The Low Velocity Impact Response of Graphene Modified Composites Manufactured using Automated Dry Fiber Placement. Polymers and Polymer Composites, 2016; 24.4: 233-240.
8.Umer R., Rao S.,Zhou J., Guan Z. and Cantwell W.J. The Mechanical Properties of 3D Woven Composites. Journal of Composite Materials. 2017;5(12):1703-1716.
9. Zhou J., Guan Z.W., and Cantwell W.J., The Influence of Strain-rate on The erforation Resistance of Fiber Metal Laminates. Composite Structures. 2015; 125:247–255.
10. Kaboglu Cihan, Mohagheghian Iman,Zhou Jin, Guan Zhongwei, Cantwell Wesley, John Sabu, Blackman Bamber, Kinloch Anthony, Dear John. High-velocity impact deformation and perforation of fibre-metal laminates. Journal of Materials Science 2018;53(6), 4209-4228.

research project

Project 1:The Low Velocity Impact Response of Foam-based Sandwich Panels.
Project 2: The Energy-Absorbing Behaviour of Sandwiches Reinforced with Composite Rods and tubes
Project 3: The Mechanical Response of Corrugated Composite Cores Structures
Project 4: The Perforation Resistance of Carbon Fiber Laminates
Project 5: The Impact Resistance of Fiber Metal Laminate
Project 6: Feasibility Study Application – Composite forming limit diagram
Project 7: 3D Printed Composite Structures

(6.)Teaching

1. Introduction of Composite
2. Light Weight Structures

博后简介 - 周晋 Zhou Jin