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李哲健

发布日期:2023-12-07   浏览量:

职称:教授

学位:博士

研究领域:新型折纸结构、超材料;冲击与爆炸防护

招生方向:结构工程[081402]、防灾减灾工程及防护工程[081405]、土木水利(结构工程方向)[085900]

办公地点:

工程抗震研究中心605

电子邮箱:zhejian.li@gzhu.edu.cn


必赢贵宾会3003am工程抗震研究中心教授,国家高层次青年人才计划入选者,全国爆炸力学优秀青年学者,必赢贵宾会3003am百人计划青年杰出人才,最受学生欢迎教师。主要从事新型轻质吸能结构的设计与其抗爆炸、抗冲击性能的研究。将折纸结构与传统吸能结构相结合,开发新型吸能机械超材料,优化传统金属薄壁多孔结构,并研究其动力学特性与其在爆炸、冲击荷载下的结构响应和防护效果。主持在研包括2项国家自然科学基金项目在内的项目共6项,发表论文30余篇,其中以第一、通讯作者发表SCI论文20余篇。已授权、受理发明专利6项Applied Sciences(SCI JCR二区)专刊客座编辑,以及十余个国内国际期刊审稿人。


教育背景

2016.02-2020.01,澳大利亚科廷大学,土木工程,博士

2018.11-2018.12,英国牛津大学,土木工程,访问学者

2010.06-2014.07,澳大利亚西澳大学,机械工程,一等荣誉学士

2012.01-2012.12,美国加州大学伯克利分校,机械工程,交流访问


职业经历

2023.08至今,必赢贵宾会3003am,工程抗震研究中心,教授

2021.07-2023.08,必赢贵宾会3003am,必赢贵宾会3003am、工程抗震研究中心,副教授

2019.08-2021.03,澳大利亚科廷大学,土木与机械工程学院,博后研究员

2015.01-2015.12,澳大利亚珀斯Simmons Global公司,项目工程师

2012.12-2013.03,澳大利亚矿业合作研究中心CRC Mining Australia, 资产管理研究员


主持的科研项目

国家自然科学基金-国家高层次青年人才项目,主持,2023-2026

国家自然科学基金-青年项目,主持,2023-2025

广州市科技计划基础与应用基础研究一般项目,主持,2023-2025

必赢贵宾会3003am第三批校内科研项目,主持,2023-2024

必赢贵宾会3003am“百人计划”科研启动项目,主持,2021-2026

深圳某公共建筑结构抗爆防护,企事业单位合作项目,2022-2024


获奖及荣誉

第四届全国爆炸力学优秀青年学者,2023

入选国家高层次青年人才计划,2022

必赢贵宾会3003am第十四届最受学生欢迎教师,2022

必赢贵宾会3003am“百人计划”青年杰出人才,2021

2019年度国家优秀自费留学生奖学金2020

SAMIO2019会议优秀报告奖2019

科廷大学优秀博士生交流奖学金,2018

7OSME会议Gabriella & Paul Rosenbaum基金会奖2018

科廷大学国际研究生奖学金,2016

澳大利亚研究理事会联系基金奖学金,2016

澳大利亚矿业合作研究中心研究奖学金,2012

Robert & Maude Gledden 交流奖学金2011

西澳大学工程学院国际学生奖学金,2010


近期发表的SCI期刊文章

[1] G. Wang, Z. Li*, Z. Lu, J. Liu*, Local impact resistance of curved sandwich panel with Miura-ori foldcore, Engineering Structures, 300 (2024) 117232.

[2] L. Lam, W. Chen*, H. Hao*, Z. Li, Dynamic crushing and energy absorption of bio-inspired shear thickening fluid-filled origami metastructure, Engineering Structures, 299 (2024) 117122.

[3] Y. Zhang, Y. Wen, B. Liu, X. Wen, Z. Li*, H. Hao, W. Chen, Performance of foam-filled kirigami corrugated sandwich panels as sacrificial cladding against blast loads, Journal of Building Engineering, 76 (2023) 107033.

[4] L. Lam, W. Chen*, H. Hao*, Z. Li, Crushing behaviour of corrugated tilted honeycomb core inspired by plant stem, Thin-Walled Structures, 188 (2023) 110852.

[5] Z. Li*, Y. Wen, X. Wen, H. Hao*, W. Chen, Single and double-layered Kirigami corrugated sandwich panels against impact loads, Structures, 51 (2023) 402-414.

[6] Q. Yang, Z. Li*, H. Hao*, W. Chen, Compressive mechanical properties and dynamic behaviour of origami-inspired tri-directional auxetic metamaterial, Engineering Structures, 281 (2023) 115751.

[7] L. Lam, W. Chen*, H. Hao*, Z. Li, N.S. Ha, Dynamic crushing performance of bio-inspired sandwich structures with beetle forewing cores, International Journal of Impact Engineering, 173 (2023) 104456.

[8] Z. Li*, X. Wen, Y. Wen, W. Chen, H. Hao*, Y. Zhang, B. Liu, Crashworthiness analysis and parametric investigation on kirigami corrugated structures, Thin-Walled Structures, 181 (2022) 110136.

[9] Z. Li*, R. Fang, Q. Yang, W. Chen, H. Hao*, Q. Kong, Y. Shi, Performance of sandwich cladding with modular truncated square pyramid foldcore under projectile impact, International Journal of Impact Engineering, 166 (2022) 104258.

[10] Q. Yang, Z. Li*, W. Chen, H. Hao*, Parametric study and modification of the truncated square pyramid (TSP) folded structure for effective energy absorption under static and dynamic crushing, Journal of Aerospace Engineering, 35 (2022) 04022086.

[11] Z. Li*, Q. Yang, W. Chen, H. Hao*, R. Fang, J. Cui, Dynamic compressive properties of reinforced and kirigami modified honeycomb in three axial directions, Thin-Walled Structures, 171 (2022) 108692.

[12] L. Lam, W. Chen*, H. Hao*, Z. Li, N.S. Ha, T.M. Pham, Numerical study of bio-inspired energy-absorbing device using shear thickening fluid (STF), International Journal of Impact Engineering, 162 (2022) 104158.

[13] Z. Li, Q. Yang, W. Chen*, H. Hao*, C. Matenga, Z. Huang, R. Fang, Impact response of a novel sandwich structure with Kirigami modified corrugated core, International Journal of Impact Engineering, 156 (2021) 103953.

[14] Z. Li, Q. Yang, R. Fang, W. Chen*, H. Hao*, Crushing performances of Kirigami modified honeycomb structure in three axial directions, Thin-Walled Structures, 160 (2021) 107365.

[15] Z. Li, Q. Yang, R. Fang, W. Chen*, H. Hao*, Origami metamaterial with two-stage programmable compressive strength under quasi-static loading, International Journal of Mechanical Sciences, (2020) 105987.

[16] Z. Li, W. Chen*, H. Hao*, Q. Yang, R. Fang, Energy absorption of Kirigami modified corrugated structure, Thin-walled Structures, 154 (2020) 106829.

[17] Z. Li, W. Chen*, H. Hao*, Mechanical properties of carbon foams under quasi-static and dynamic loading. International Journal of Mechanical Sciences, 161-162 (2019) 105039.

[18] Z. Li, W. Chen*, H. Hao*, Functionally graded truncated square pyramid folded structures with foam filler under dynamic crushing, Composites Part B: Engineering, 177 (2019) 107410.

[19] Z. Li, W. Chen*, H. Hao*, Dynamic crushing and energy absorption of foam filled multi-layer folded structures: Experimental and numerical study, International Journal of Impact Engineering, 133 (2019) 103341.

[20] Z. Li, W. Chen*, H. Hao*, Numerical study of blast mitigation performance of folded structure with foam infill, Structures, 20 (2019) 581-593.

[21] Z. Li, W. Chen*, H. Hao*, J. Cui, Y. Shi, Experimental study of multi-layer folded truncated structures under dynamic crushing, International Journal of Impact Engineering, 131 (2019) 111-122.

[22] Z. Li, W. Chen*, H. Hao*, Numerical study of open-top truncated pyramid folded structures with interconnected side walls against flatwise crushing, Thin-Walled Structures, 132 (2018) 537-548.

[23] Z. Li, W. Chen*, H. Hao*, Blast mitigation performance of cladding using Square Dome-shape Kirigami folded structure as core, International Journal of Mechanical Sciences, 145 (2018) 83-95.

[24] Z. Li, W. Chen*, H. Hao*, Crushing behaviours of folded kirigami structure with square dome shape, International Journal of Impact Engineering, 115 (2018) 94-105.

[25] Z. Li, W. Chen*, H. Hao*, Numerical study of sandwich panel with a new bi-directional Load-Self-Cancelling (LSC) core under blast loading, Thin-Walled Structures, 127 (2018) 90-101.


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