基本信息

周  晋   教授、博士生导师

入选国家级青年人才

入选青年拔尖人才

联系方式

 

Emailjin.zhou@xjtu.edu.cn

地址:陕西省西安市西安交通大学

邮编:710054

 

研究主页


web:jin.zhou.gr.xjtu.edu.cn  

https://cimcomp.ac.uk/people/jin-zhou/

https://www.liverpool.ac.uk/engineering/staff/jin-zhou/

 

 

站点计数器
工作经历

       周晋,毕业于英国利物浦大学获博士学位,先后在剑桥大学及帝国理工从事航空复合材料研究工作,研究方向包括复合材料轻量化结构设计优化、抗冲击性能评估测试、先进制造快速成型及缺陷控制理论。研究成果在商用客机轻量化结构及先进制造成型方面获工业应用。主要成果发表在复合材料领域期刊。曾在英国工业界任高级结构工程师承担结构力学优化课题及摩擦焊接技术研发项目,取得英国、德国、美国、阿联酋多个国家技术许可十多项。

 

      Jin Zhou is a Professor at the Xi'an Jiaotong University. He obtained PhD degree in Aerospace Composite from the University of Liverpool. He was a Research Fellow working on impact response of lightweight composite structure at the same university and Imperial College London. He has been a Research Associate working on composite forming in Department of Engineering at Cambridge University. 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. He managed the technical department and obtained a number of industrial approvals for friction welding projects following international industrial standardization 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.

研究领域

研究方向 


1.  复合材料设计及先进制造技术,研究航空器轻量化结构包括夹芯结构 (Sandwich Structures)、碳纤维(Carbon Laminates)、复合增强金属层合板(Fiber Metal Laminates),复合材料3D打印及编织技术。

2.  复合材料冲击动力学、结构抗冲击性能评估及吸能结构设计优化。

3.  复合材料成型理论、结构力学及数值仿真、有限元仿真及多尺度建模。

 

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 Effects in 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/

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