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:10.1177/0021998319900364 

[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/ma13173813

  

 

 

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 20th UK 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 5th International 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. 19-24th July.

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 17th European Conference on Composite Materials (ECCM17), Munich, Germany, 2016, 26-30th June.

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.