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张浩祺

副教授
电子邮箱: zhanghq76@安博体育.安博体育.edu.cn

个人简介

张浩祺,安博体育副教授,博士生导师。

研究领域主要集中在纤维增强复合材料的优化设计与先进制造技术,涉及高性能纤维材料的制备、先进增材铺放技术、纤维路径与力学优化设计、纤维复材数值模拟分析等。研究目的针对高性能纤维增强复合材料的先进制造系统,提供材料-制造-分析-数字化的理论和技术支撑。同时涉及先进纤维/织物材料、介电功能材料、基于CT断层扫描的有限元数值分析等研究内容。

近年来以第一和共同作者身份在国际知名期刊发表SCI论文十余篇,其中11篇中科院1区,包括Nature Communications、Composites Science and Technology、Additive Manufacturing和Composites Part B: Engineering等。文章引用量500余次,H-因子10(Google Scholar)。目前在多个国际期刊(Processes、Mathematics等)担任评审和客座编辑,也是复合材料和先进制造领域内多个顶级期刊(Composites Science and Technology、Composites Part B: Engineering、Additive manufacturing、Composites Structures、Composites Communications等)的审稿人,曾多次受邀参与国际会议进行主题演讲。

课题组所在团队经费充足,与海外多间知名大学长期保持合作关系,招收机械工程、材料工程、力学和计算机等专业方向的硕士/博士研究生和博士后,提供与英国爱丁堡大学、新加坡国立大学、英国利兹大学的访学交流机会,欢迎有志从事增材制造、复合材料、力学优化设计和数值分析建模的同学报考和联系!

 

基本信息

通讯电话:13725593045

电子邮箱:zhanghq76@安博体育.安博体育.edu.cn

通讯地址:广东省深圳市光明安博体育66号中山大学理学园东530

学术主页:http://www.http://www.researchgate.net/profile/Haoqi-Zhang-2(ResearchGate)

                 http://scholar.google.co.uk/citations?user=3KlzaUAAAAAJ&hl=en&oi=sra(Google Scholar)

 

教育背景

2017.09 - 2021.10        爱丁堡大学(英国)      博士(直博)

2013.09 - 2017.06        深圳大学                       本科

 

工作经历

2024.07 - 至今             中山大学                                 副教授

2023.01 - 2024.06       新加坡国立大学(新加坡)      博士后研究员

2021.11 - 2022.11       爱丁堡大学(英国)                博士后研究员

 

主讲课程

《ABSPORTS》,本科生课程

《安博体育》,研究生课程

 

研究领域

熔融沉积式增材制造;连续碳纤维复合材料;拓扑/超轻量化设计;介电功能材料;Micro-CT原位有限元分析;微观/力学性能表征

 

学术兼职

·  广州市香港科大霍英东研究院顾问学者

·  英国‘未来复合材料制造研究中心’会员

·  国际期刊Processes、Mathematics客座编辑

·  Composites Science and Technology、Composites Part B: Engineering、Additive manufacturing、Composites Structures、Composites Communications等国际知名期刊审稿人

 

期刊论文

1. Liu, Q., Dong, X., Qi, H., Zhang, H., Li, T., Zhao, Y., Li, G. and Zhai, W., 2024. 3D printable strong and tough composite organo-hydrogels inspired by natural hierarchical composite design principles. Nature Communications (Impact factor: 16.6), 15, 3237.

2. Li, A., Zhang, H. and Yang, D., 2024. Influence of fibre steering on the bearing performance of bolted joints in 3D printed pseudo-woven CFRP composites. Composites Part A: Applied Science and Manufacturing (Impact factor: 9.463), p.108150.

3. Wang, S., Zhang, H., Li, A., Qayyum, J.A.A., Wang, Y., He, Z., Liu, J. and Yang, D., 2024. A modified equally-spaced method (MEQS) for fibre placement in additive manufacturing of topology-optimised continuous carbon fibre-reinforced polymer composite structures. Composite Structures (Impact factor: 6.603), p.117998.

4. Zhang, H., Wang, S., Zhang, K., Wu, J., Li, A., Liu, J., & Yang, D, 2023. 3D printing of continuous carbon fibre reinforced polymer composites with optimised structural topology and fibre orientation. Composite Structures (Impact factor: 6.603), 116914.

5. Lyu, Y., Wu, J., Zhang, H., Brádaigh, C.M.Ó. and Yang, D., 2023. Effects of thermal process conditions on crystallinity and mechanical properties in material extrusion additive manufacturing of discontinuous carbon fibre reinforced polyphenylene sulphide composites. Journal of Composite Materials (Impact factor: 2.9), 57(24), pp.3775-3787.

6. Zhang, K., Zhang, H., Wu, J., Chen, J., & Yang, D, 2023. Improved fibre placement in filament-based 3D printing of continuous carbon fibre reinforced thermoplastic composites. Composites Part A: Applied Science and Manufacturing (Impact factor: 9.463), 168, 107454.

7. Zhang, H., Zhang, K., Li, A., Wan, L., Robert, C., Brádaigh, C.M.Ó. and Yang, D, 2022. 3D printing of continuous carbon fibre reinforced powder-based epoxy composites. Composites Communications (Impact factor: 7.685), p.101239.

8. Zhang, H., Wu, J., Robert, C., Brádaigh, C.M.Ó. and Yang, D., 2022. 3D printing and epoxy-infusion treatment of curved continuous carbon fibre reinforced dual-polymer composites. Composites Part B: Engineering (Impact factor: 11.322), p.109687.

9. Zhang, H., Li, A., Wu, J., Sun, B., Wang, C. and Yang, D., 2022. Effectiveness of fibre placement in 3D printed open-hole composites under uniaxial tension. Composites Science and Technology (Impact factor: 9.879), p.109269.

10. Zhang, H., Chen, J. and Yang, D., 2021. Fibre misalignment and breakage in 3D printing of continuous carbon fibre reinforced thermoplastic composites. Additive Manufacturing (Impact factor: 11.632), 38, p.101775.

11. Zhang, H., Zhang, L., Zhang, H., Wu, J., An, X. and Yang, D., 2021. Fibre bridging and nozzle clogging in 3D printing of discontinuous carbon fibre-reinforced polymer composites: coupled CFD-DEM modelling. The International Journal of Advanced Manufacturing Technology (Impact factor: 3.226), 117(11), pp.3549-3562.

12. Yang, D., Zhang, H., Wu, J. and McCarthy, E.D., 2021. Fibre flow and void formation in 3D printing of short-fibre reinforced thermoplastic composites: an experimental benchmark exercise. Additive Manufacturing (Impact factor: 10.998), 37, p.101686.

13. Zhang, H., Dickson, A.N., Sheng, Y., McGrail, T., Dowling, D.P., Wang, C, Neville, A. and Yang, D., 2020. Failure analysis of 3D printed woven composite plates with holes under tensile and shear loading. Composites Part B: Engineering (Impact factor: 11.322), 186, p.107835.

14. Zhang, H., Yang, D. and Sheng, Y., 2018. Performance-driven 3D printing of continuous curved carbon fibre reinforced polymer composites: A preliminary numerical study. Composites Part B: Engineering (Impact factor: 11.322), 151, pp.256-264.

 

发明专利

1. 一种X射线CT层析扫描轴压实验配套的制样模具 201621211465.2

2. 一种X射线CT层析扫描弯曲试验的加载装置 201621211536.9

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