熊健

基本信息 论文专著 (Publications) 我的团队(People) 教学与科研 新建主栏目 Welcome to Prof. Dr. Jian Xiong’s Research Group 名称 Our Team works to investigate the mechanics of Advanced Lightweight Composite Structures Research interests: Mechanics of Lightweight Composite Materials and Structure (Composite Materials, Cellular Materials, Porous Materials, Biomaterials, Sandwich Panels, Lightweight Structures, Multifunctional Structures) Dr. Jian Xiong Full Professor, Humboldt Research Fellow Center for Composite Materials and Structures Harbin Institute of Technology, Harbin 150080, P.R.China. E-mail: jx@hit.edu.cn ------------------------------------------------------------------------------------------------------ 十余年以来 一直致力于 先进轻质复合材料结构的设计理论及力学机制研究 研究方向关键词：轻质复合材料结构力学，夹层结构复合材料，特种环境复合材料结构力学行为，轻质复合材料与结构，轻量化材料与结构，固体力学 熊健，教授，博士生导师，中共党员，国家级重点实验室副主任。哈工大航天学院复合材料与结构研究所, 特种环境复合材料技术国家级重点实验室。 针对空间飞行器特殊服役环境，为了实现飞行器减轻重量、增加有效载荷的目的，发展先进轻质复合材料结构，实现结构轻量化和多功能化是迫切需要解决的科学问题。在这个研究背景下，十余年以来，一直致力于先进轻质复合材料结构的设计理论及力学机制研究。以第一作者/通讯作者在《Journal of the Mechanics and Physics of Solids》、《Advanced Materials》、《Acta Materialia》、《Composites Science and Technology》《International Journal of Solids and Structures》等复合材料结构、固体力学等领域重要期刊发表学术论文90余篇，受到美、欧、英、加、日、韩、加、澳、印、中等国际国内院士和知名学者等同行以及NASA、空客和东丽等知名企业的广泛引用和正面评价。学术成果被大段编写入俄罗斯工程院/欧洲科学与艺术学院院士主编的学术书籍，产生了重要影响。所提出的轻量化结构设计方法与理论为航天院所型号研制与工程应用提供了参考依据，已授权国家发明专利20余项，出版学术专著一部，曾荣获部级技术发明一等奖(第三)、黑龙江省青年科技奖、黑龙江省自然科学技术一等奖和二等奖各一项。主持国家自然科学基金面上基金、国际(地区)合作项目、青年基金和应急项目、教育部博士点基金和产学研合作等十余项课题。参与国家自然科学基金创新研究群体项目、国家自然科学基金重点项目两项、国家重大基础研究计划-973计划两项等等。现任中国复合材料学会车辆工程专业委员会和中国复合材料学会职称评定工作委员会副主任、中华洪堡学者协会常务理事兼副秘书长、黑龙江省力学学会青年工作委员会副主任、《南京航空航天大学学报》(英文版)青年编委，《应用力学学报》青年编委，《哈尔滨工程大学学报》青年编委，《固体力学学报》青年编委。 Email: jx@hit.edu.cn Employment history (工作经历) 名称 12.2015-Present Professor, Center for Composite Materials and Structures, Harbin Institute of Technology 02.2019-04.2019 Visiting Scholar, Rice University, U.S.A 12.2017-01.2018 Research Fellow, The Hong Kong Polytechnic University, Hong Kong 04.2015-08.2016 Humboldt Research Fellow, Siegen University, Germany 12.2013-12.2015 Associate Professor, Center for Composite Materials and Structures, Harbin Institute of Technology 09.2013-12.2013 Visiting Scholar, Siegen University, Germany 07.2012-12.2013 Lecturer, Center for Composite Materials and Structures, Harbin Institute of Technology 01.2011-01.2012 Visiting Scholar, Northeastern University, U.S.A 09.2011-06.2012 Assistant Professor, Center for Composite Materials and Structures, Harbin Institute of Technology --------------------------------------------------------------------------------------------------------------- 2017.05-至今 哈尔滨工业大学复合材料与结构研究所 博士生导师 2015.12-至今 哈尔滨工业大学复合材料与结构研究所 教授(破格) 2019.02-2019.04 美国Rice University工程学院 访问学者 2017.12-2018.01 香港理工大学纺织与织衣系 访问研究员 2015.04-2016.08 德国Siegen University机械工业工程系 洪堡研究员 2013.12-2015.12 哈尔滨工业大学复合材料与结构研究所 副教授(破格) 2013.09-2013.12 德国Siegen University机械工业工程系 访问学者 2012.07-2013.11 哈尔滨工业大学复合材料与结构研究所 讲师 2011.01-2012.01 美国Northeastern University工程学院 访问学者 2011.09-2012.06 哈尔滨工业大学复合材料与结构研究所 助教 Education (教育经历) 名称 07.2008-11.2012 Ph.D., Engineering Mechanics, Harbin Institute of Technology 09.2006-07.2008 M.Sc., Engineering Mechanics, Harbin Institute of Technology 09.2003-07.2006 Minor, Business Administration, Harbin Engineering University 09.2002-07.2006 B.Sc., Engineering Mechanics, Harbin Engineering University -------------------------------------------------------------------------------------- 2008.07-2012.11 博士 哈尔滨工业大学航天学院复合材料与结构研究所 工程力学专业 2006.09-2008.07 硕士 哈尔滨工业大学航天学院复合材料与结构研究所 工程力学专业 2003.09-2006.07 辅修专业 哈尔滨工程大学经济管理学院 工商管理专业 2002.09-2006.07 学士 哈尔滨工程大学建筑工程学院 工程力学专业 Honors and Awards (荣誉称号) 名称 10/2023 Supported by the 2023 National Science and Technology Academic Publications Fund 03/2022 The 15th Heilongjiang Province Youth Science and Technology Award 01/2022 First Prize of Science and Technology Invention at provincial and ministerial level (3th) 01/2019 Stanley Ho (SHATF) Teaching Award 03/2016 Young Talents of the Chinese Society of Composite Materials 01/2016 China Association for Science and Technology "Young Talent Support Project" 08/2016 First Prize of Natural Science of Heilongjiang Province 12/2015 The Outstanding Youth Talent Plan of Harbin Institute of Technology 11/2015 “Frontrunner 5000” Top Papers in Chinese Fine Sci-tech Journals (F5000) 05/2015 Excellent Guide Teacher Award for student activities of Harbin Institute of Technology 07/2014 The Outstanding Doctoral Dissertations of Harbin Institute of Technology 04/2014 The Basic Research Outstanding Talent Cultivation Plan of Harbin Institute of Technology 03/2014 Humboldt Research Fellow from AVH, Germany 12/2013 Second prize of Heilongjiang Science Academic achievement 11/2013 First prize of Harbin Science Academic achievement 09/2013 Fellowship from DAAD for visiting scholar at Germany 05/2012 Outstanding Graduates in Harbin Institute of Technology 03/2012 Most Cited Composite Structures Article 07/2011 Young Scientist Award was awarded by the committee at the International conference ACE-X 2011(Algarve, Portugal)-3 participators were award /300 participators 07/2011 Ongoing excellent doctoral thesis prize in Harbin Institute of Technology 01/2011 Fellowship from China Scholarship Council for visiting scholar at U.S.A 07/2010 The Young Scholar Prize awarded by MOE of China --------------------------------------------------------------------------------------------------------------- 2023.10 获2023年度国家科学技术学术著作出版基金资助 2022.03 第十五届黑龙江省青年科技奖 2022.01 省部级技术发明一等奖(第三) 2019.01 何鸿燊(SHATF)奖教金获得者 2016.03 入选中国复合材料学会“青年人才库” 2016.01 入选中国科学技术协会“青年托举人才工程” (工程力学) 2016.08 黑龙江省自然科学一等奖 (排名第三) 2015.12 入选校“青年拔尖人才计划”，破格 教授 2015.11 领跑者5000-中国精品科技期刊顶尖论文(F5000) 2015.05 哈工大学生活动优秀指导教师 2014.07 获第十六批哈尔滨工业大学优秀博士学位论文 2014.04 入选校“基础研究杰出人才计划 III 类” 2014.03 入选德国“洪堡学者”计划 2013.12 黑龙江省自然科学学术成果二等奖 2013.11 哈尔滨市自然科学学术成果一等奖 2013.09 德国DAAD奖学金 2012.05 被评为哈尔滨工业大学优秀毕业研究生 2012.03 Composite Structure“高被引论文” 2011.07 被欧洲ACE-X2011 会议授予“YoungScientist Award” 2011.07 被评为哈尔滨工业大学第十三批正在进行优秀博士论文 2011.01 国家公派留学奖学金 2010.07 获教育部博士生学术新人奖 Others (其他) 名称 黑龙江省青年科技工作者协会会长 中国复合材料学会车辆工程专业委员会副主任 中国复合材料学会职称评定工作委员会副主任 中国复合材料学会青年工作委员会委员 中华洪堡学者协会常务理事兼副秘书长 中国兵工学会防爆安检专业委员会委员 黑龙江省力学学会青年工作委员会副主任 中国力学学会会员 中国复合材料学会会员 Journal of Sandwich Structures & Materials编委（中国区唯一） 力学季刊编委 固体力学学报青年编委 应用力学学报青年编委 南京航空航天大学学报(中/英文版)青年编委 哈尔滨工程大学学报青年编委 Reviewer for journals (审稿人): 《Carbon》, 《Composite Science and Technology》,《Engineering Fracture Mechanics》,《International Journal of Mechanical Sciences》,《Composite Part A》, 《Composite Structures》, 《Composites PartB》, 《Materials and Design》, 《Thin wallstructures》, 《Journal of Composite Materials》,《Advanced Engineering Materials》，《AIAA》等 Selected Key Publications 名称 [1] Qianqian Wu, Ashkan Vaziri, Mohamad Eydani Asl, Ranajay Ghosh, Ying Gao, Xingyu Wei, Li Ma, Jian Xiong*, Linzhi Wu.Lattice Materials with Pyramidal Hierarchy: Systematic Analysis and Three Dimensional Failure Mechanism Maps.Journal of the Mechanics and Physics of Solids（JMPS）,2019, 125: 112-144. Highlights: The concept of an ideal ultralight-weight sandwich materials was proposed and the pyramidal-pyramidal topological configuration was introduced for hierarchical sandwich structures. Three-dimensional failure mechanism maps for the pyramidal-pyramidal hierarchical lattice material are developed. The pyramidal-pyramidal hierarchical configuration can improve the load bearing capacity and core buckling resistance of the sandwich structures at low density. Download: https://www.sciencedirect.com/science/article/pii/S0022509618308330 [2] Qianqian Wu, Ying Gao, Xingyu Wei, Davood Mousanezhad, Li Ma, Ashkan Vaziri, Jian Xiong*. Mechanical properties and failure mechanisms of sandwich panels with ultra-lightweight three-dimensional hierarchical lattice cores. International Journal of Solids and Structures(IJSS), 2018, 132-133, 171-187. Highlights: The mechanical properties and failure mechanisms of sandwich panels with “corrugated-pyramidal” hierarchical lattice cores were investigated through analytical modeling and detailed numerical simulations. Download: https://www.sciencedirect.com/science/article/pii/S0020768317304341 [3] Yuntong Du, Changping Song, Jian Xiong*, Linzhi Wu. Fabrication and mechanical behaviors of carbon fiber reinforced composite foldcore based on curved-crease origami. Composites Science and Technology (CSTE), 2019, 174, 94-105. Highlights: The analytical models based on differential and integral method for predicting the compressive stiffness and strength of curved-crease origami foldcores were developed first and a three dimensional failure mechanism map was constructed. Download: https://www.sciencedirect.com/science/article/pii/S0266353818322292 [4] Xiaodong Li, Jian Xiong*, Li Ma, Linzhi Wu*, Xiangqiao Yan. Effect of vacuum thermalcycling on the compression and shear performance of composite sandwich structures containng pyramidal truss cores. Composites Science and Technology(CSTE),2018, 158, 67-78. Highlights: The effect of vacuum thermal cycling on the compression and shear performance of the composite sandwich panels with pyramidal-truss cores was studied using theoretical and experimental methods. Download: https://www.sciencedirect.com/science/article/pii/S026635381731446X [5] Hui Li, Wenyu Wang, Xintong Wang, Qingkai Han, Jinguo Liu, Zhaoye Qin, Jian Xiong*, Zhongwei Guan. A nonlinear analytical model of composite plate structure with an MRE function layer considering internal magnetic and temperature fields.Composites Science and Technology, 2020, 200, 108445. Download: https://www.sciencedirect.com/science/article/pii/S0266353820322351 [6] Xiong, J.*, Ma,L., Pan, S.D., Wu, L.Z.*, Papadopoulos, J., Vaziri, A. (2012): Shear andbending performance of carbon fiber composite sandwich panels with pyramidaltruss cores, Acta Materialia,60, 1455-1466. Highlights: This paper investigatedthe shear and bending performance of lattice truss sandwich panels through experimentaland theoretical methods. Failure maps were constructed to predict theresponse of panels under three-point bending. Download: http://www.sciencedirect.com/science/article/pii/S1359645411008184 [7] Xiong, J.*, Ma,L., Vaziri, A., Yang, J.S., Wu, L.Z*. (2012): Mechanical behavior of carbonfiber composite lattice core sandwich panels fabricated by laser cutting, Acta Materialia, 60, 5322-5334. Highlights: This paper developed a new method to deal with thecore-truss debonding problem in the field of sandwich panels with lattice trusscores. Laser beam cutting method was introduced to remove material fromcorrugated core sandwich panels, leading to lattice cores with much strongercore-to-face-sheet bonding. Download: http://www.sciencedirect.com/science/article/pii/S1359645412003655 Books (专著) 出版物名称 复合材料点阵结构力学性能表征 作者 吴林志、熊健、马力 (著) 出版时间 2015年11月 出版社 科学出版社 简单介绍 复合材料点阵结构的提出和发展源自以下三方面的启示：①自然界中动植物独特的微结构构造和优异的力学性能；②金属点阵结构优异的力学性能；③工程中对结构轻量化和多功能化的迫切需求。作者及其团队近年来一直致力于先进复合材料点阵结构的设计、制备、表征及评价，《复合材料点阵结构力学性能表征》的内容正是作者所在团队近年来的研究成果和学术心得的总结，同时还借鉴了国内外部分具有代表性的研究工作。作者试图系统地介绍先进复合材料点阵结构的制备方法和力学特性，使读者能够全面了解该类结构的特点。 出版物名称 复合材料学科方向预测及技术路线图 作者 复合材料领域专家学者 出版时间 2018 出版社 中国科协、中国复合材料学会 简单介绍 本人参与了中国科协复合材料学科技术路线图中《复合材料结构设计与分析》一章的技术路线图编制工作。本章概要介绍复合材料结构设计与分析相关知识，针对航空航天装备、海洋工程装备及高技术船舶、节能与新能源汽车和电力装备四个领域，阐述复合材料结构设计思想、分析方法和技术，并基于发达国家复合材料结构设计和分析的发展历程和研究现状，结合我国实际情况，对我国复合材料结构设计和分析未来 10 年和 20 年分阶段目标、主要发展方向及可能或必须突破的重大科学技术问题进行描述。《复合材料学科方向预测及技术路线图》是由中国复合材料学会依据中国科协相关项目的工作指导，于2016-2017年组织行业专家进行编写。本书集国内百名复合材料行业专家及从业者知识精华，从复合材料前沿热点、高性能纤维与纺织结构增强体、聚合物基体等十二个章节方向对复合材料各个方面进行中期（2030）和中长期（2050）预测并提出具体的可执行方案。本书以《中国制造2025》十大重点领域为依据，从技术需求溯源到前沿基础研究，体现学科热点分析和趋势预报。并广泛征集了来自企业、高校、科研机构及专业学会专家的意见与建议，对复合材料学科未来发展具有重要的指导意义。 Peer Reviewed Journal Publications (杂志期刊) 名称 2024 [112]Zongbing Chen，Xingyu Wei，Lihong Yang，Jian Xiong*. Origami-based bidirectional self-locking system for energy absorption，Journal of the Mechanics and Physics of Solids，188（2024）105672 https://doi.org/10.1016/j.jmps.2024.105672 A new guided mode so-called minimum group velocity in viscoelastic sandwich plates: A parametric numerical study，Composite Structures，338 (2024) 118106 https://doi.org/10.1016/j.compstruct.2024.118106 [111] Souhail Dahmen, Cherif Othmani*, Sebastian Merchel, M. Ercan Altinsoy, Abir Rouis, Jian Xiong，Farid Takali. A new guided mode so-called minimum group velocity in viscoelastic sandwich plates: A parametric numerical study，Composite Structures，338 (2024) 118106 https://doi.org/10.1016/j.compstruct.2024.118106 [110] Pengcheng Xue, Xingyu Wei, Zhibin Li, Yan Wang, Mikhailo F. Selivanov, Jian Xiong*. Mechanics of inner core debonding of composite sandwich beam with CFRP hexagonal honeycomb，International Journal of Solids and Structures，293 (2024) 112760 https://doi.org/10.1016/j.ijsolstr.2024.112760 [109] Hui Li，Pengchao Li，Zelin Li，Jian Xiong*，Bo Zhou，Haiyang Zhang，Hansong Bai， Shaoming Wang，Xiangping Wang，Hang Cao，Wei Sun，Qingkai Han，Jin Zhou，Zhongwei Guan. Analytical modeling and analysis of the low-velocity penetration and non-penetration behaviors of fiber-reinforced composite cylindrical shells based on critical impact velocity criterion, International Journal of Impact Engineering，186（2024）104858 https://doi.org/10.1016/j.ijimpeng.2023.104858 [108] Zhibin Li，Wenyu Wang，Pengcheng Xue，Xingyu Wei，Jian Xiong*. Mechanical properties and failure mechanisms of all-CFRP corrugated sandwich truncated cone，Composites Part B，268（2024）111090 https://doi.org/10.1016/j.compositesb.2023.111090 2023 [107] Jian Xiong，Cheng Gong，Qianqian Wu，Li Ma，Jinshui Yang，Linzhi Wu*，Design, fabrication, and dynamic mechanical responses of fiber-reinforced composite lattice materials, International Journal of Mechanical System Dynamics，3（2023）213–228 https://onlinelibrary.wiley.com/doi/full/10.1002/msd2.12085 [106] Yishu Su，Ying Li，Minghong Qi，Sebastien Guenneau，Huagen Li，JianXiong*. Asymmetric Heat Transfer with Linear Conductive MetamaterialsPhysical Review Applied，20（2023）034013 https://www.researchgate.net/publication/373746014 [105] Zelin Li，Hui Li*，Chaohui Ren，Yichen Deng，Jichuan Cao，Jian Xiong，Bo Zhou，Hansong Bai，Haiyang Zhang，Shaoming Wang，Xiangping Wang，Hang Cao，Qingkai Han，Zhongwei Guan. Low-velocity impact resistance of all composite cylindrical shell panels with a foam filled honeycomb core: Theoretical and experimental investigation，International Journal of Impact Engineering，182 (2023) 104765 https://doi.org/10.1016/j.ijimpeng.2023.104765 [104] Shuai Wang*， JiaYi Jin，WenQi Liu，Qi An，Rui Zhang，LuJun Huang*，Jian Xiong，Lin Geng. High temperature performance of TiB/(Ti-6.5Al-2Zr-1Mo-1V-0.5Si) composites affected by the TiB architecture，Composites: Part A，174 (2023) 107735 https://doi.org/10.1016/j.compositesa.2023.107735 [103] Hui Li，Bocheng Dong，Jichuan Cao，Jing Zhao*，Jian Xiong，Yao Yang，Dongxu Du，Wei Sun，Xiangping Wang，Haihong Wu. Vibration behaviours of foam-filled grille composite sandwich cylindrical shells，International Journal of Mechanical Sciences，256 (2023) 108533 https://doi.org/10.1016/j.ijmecsci.2023.108533 [102] Shuai Wang*，FengBo Sun，WenQi Liu，Rui Zhang，Qi An，LuJun Huang*，JianXiong，Lin Geng. Dynamic compression behavior of multilayered titanium matrix composites, Materials Characterization，197 (2023) 112698 https://doi.org/10.1016/j.matchar.2023.112698 [101] Yanfeng Zhang，Linzhi Wu，Yuguo Sun，Li Ma，Shidong Pan，Bing Wang，Jian Xiong，Zhengong Zhou* . CCCs off-axial orientation sensitivity analysis in hole pin-bearing failure via hierarchical multiscale simulation framework，Composite Structures，310 (2023) 116759 https://doi.org/10.1016/j.compstruct.2023.116759 [100] Hui Li，Zhengyang Xiao，Yichen Deng，Zelin Li，Guo Xumin，Libo Wang，Yousong Xiang, Haihong Wu，Jian Xiong*，Hang Cao，Hansong Bai，Shaoming Wang，Xiangping Wang，Guan Zhongwei. High-velocity penetration impact characteristics of fiber metal hybrid cylindrical shells: Theoretical and experimental investigation, Mechanics of Advanced Materials and Structures，（2023）2256326 https://doi.org/10.1080/15376494.2023.2256326 [99] Xiang Li*，Weitao Peng，Wenwang Wu*，Jian Xiong*，and YangLu*. Auxetic mechanical metamaterials: from soft to stiff, International Journal of Extreme Manufacturing，5 (2023）042003 https://doi.org/10.1088/2631-7990/ace668 [98] Yuntong Du , Thomas Keller, Yifeng Zhu, Pengyu Wei, Yan Wang, Jian Xiong* . Mechanical behavior and failure of carbon fiber-reinforced composite sandwich structure inspired by curved-crease origami，Composite Structures，16（2023）117033 https://doi.org/10.1016/j.compstruct.2023.117033 [97] Zhibin Li，Ying Gao，Yan Wang，Pengcheng Xue，Cheng Gong，Wenyu Wang，Xingyu Wei， Jian Xiong*. Failure mechanisms and acoustic emission pattern recognition of all-CFRP cylindrical honeycomb sandwich shell under three-point bending, Composites Science and Technology，237（2023）110003 https://doi.org/10.1016/j.compscitech.2023.110003 2022 [96] Hui Li, Yang Liu, Haiyang Zhang, Zhaoye Qin*, Zhaoyang Wang, Yichen Deng, Jian Xiong, Xiangping Wang, Sung Kyu Ha. Amplitude-dependent damping characteristics of all-composite sandwich plates with a foam-filled hexagon honeycomb core, Mechanical Systems and Signal Processing，186（2023）109845 https://doi.org/10.1016/j.ymssp.2022.109845 [95] Hui Li, Yang Liu, Xianjie Shi, Zhaoyang Wang, Xiangping Wang, Jian Xiong*, Zhongwei Guan. Nonlinear vibrations of all-composite sandwich plates with a hexagon honeycomb core: Theoretical and experimental investigations，Composite Structures，305 (2023) 116512 https://doi.org/10.1016/j.compstruct.2022.116512 [94] Qianqian Wu, Shaojie Hu, Xiaohan Tang, Xin Liu, Zongbing Chen, Jian Xiong*. Compressive buckling and post-buckling behaviors of J-type composite stiffened panel before and after impact load, Composite Structures，304（2023）116339 https://doi.org/10.1016/j.compstruct.2022.116339 [93] 熊健*, 龚程, 韦兴宇, 李志彬. 可组装轻质空间结构技术研究进展, 宇航学报, 43:11（2022）1429-1443 https://doi.org/10.3873/j.issn.1000-1328.2022.11.001 [92] Qianqian Wu，Ying Gao，Jian Xiong*. Quasi-static mechanical properties of composite lattice sandwich structures with enhanced face panels, European Journal of Mechanics/ A Solids，97（2023）104808 https://doi.org/10.1016/j.euromechsol.2022.104808 [91] Zhihua Wang，Qingqing Chen，Zhiyong Wang*，Jian Xiong*. The investigation into the failure criteria of concrete based on the BP neural network，Engineering Fracture Mechanics，275（2022）108835 https://doi.org/10.1016/j.engfracmech.2022.108835 [90] Xingyu Wei，Yan Wang，Pengcheng Xue，Taotao Zhang，Abir Rouis，Wei Xiao，Jian Xiong*. Carbon Fiber Composite Honeycomb Structures and the Application for Satellite Antenna Reflector with High Precision，Advances in Astronautics Science and Technology， 5（2022）423-441 https://doi.org/10.1007/s42423-022-00133-5 [89] Hui Li，Zeyu Zou，Yangyang Yan，Xianjie Shi，Jian Xiong*，Haiyang Zhang，Xiangping Wang，Sung Kyu Ha. Free and forced vibrations of composite cylindrical–cylindrical shells with partial bolt loosening connections: Theoretical and experimental investigation. Thin-Walled Structures，179（2022）109671 https://doi.org/10.1016/j.tws.2022.109671 [88] Zhibin Li，Ying Gao，Pengcheng Xue，Xingyu Wei，Yuntong Du，Yan Wang，Jian Xiong*. Fabrication and failure mechanisms of all-composite honeycomb sandwich cylinder under the axial compression，Composites: Part A，161（2022）107075 https://doi.org/10.1016/j.compositesa.2022.107075 [87] Hui Li，Zelin Li，Zhengyang Xiao，Jian Xiong*，Xiangping Wang，Qingkai Han，Jin Zhou，Zhongwei Guan. Vibro-impact response of FRP sandwich plates with a foam core reinforced by chopped fiber rods，Composites Part B，242（2022）110077 https://doi.org/10.1016/j.compositesb.2022.110077 [86] Pengcheng Xue，Xingyu Wei，Zhibin Li，Jian Xiong*. Face-core interfacial debonding characterization model of an all-composite sandwich beam with a hexagonal honeycomb core, Engineering Fracture Mechanics，269（2022）108554 https://doi.org/10.1016/j.engfracmech.2022.108554 [85] Qianqian Wu，Xin Liu，Jiajing Li，Jingwei Li，Xingyu Wei，Yang Zhao，Jian Xiong*. Failure of carbon fiber composite sandwich cylinders with a lattice core under axial compressive loading， Composites: Part A，155（2022）106812 https://www.sciencedirect.com/science/article/pii/S1359835X22000094 [84] Zongbing Chen，Qianqian Wu，Haotian Yang，Lihong Yang，Jian Xiong*. A periodic dissipative system with self-locking capacity，International Journal of Impact Engineering，166（2022）104233 https://doi.org/10.1016/j.ijimpeng.2022.104233 [83] Yishu Su，Xingwei Zhang，Yuguo Sun，Jian Xiong*. Janus Functional Thermal Metadevice with Predictable Thermal Rotation，Applied Physics Letters，120（2022）141901 https://aip.scitation.org/doi/10.1063/5.0078014 [82] Hui Li，Haiyu Lv，Tinan Zhang，Qingkai Han，Jinguo Liu，Jian Xiong*，Zhongwei Guan. Modeling and evaluation of dynamic degradation behaviours of carbon fibre-reinforced epoxy composite shells，Applied Mathematical Modelling，104（2022）21-33 https://www.sciencedirect.com/science/article/pii/S0307904X21005527 [81] Xingyu Wei，Pengcheng Xue，Qianqian Wu，Yan Wang，Jian Xiong*. Debonding characteristics and strengthening mechanics of all-CFRP sandwich beams with interface-reinforced honeycomb cores，Composites Science and Technology，218（2022）109157 https://www.sciencedirect.com/science/article/pii/S0266353821005133 [80] Yu Chen，Ming-Hui Fu*，Hong Hu*，Jian Xiong. Curved inserts in auxetic honeycomb for property enhancement and design flexibility，Composite Structures，280（2022）114892 https://www.sciencedirect.com/science/article/pii/S0263822321013301?via=ihub [79] Xingyu Wei，Qianqian Wu，Ying Gao，Jian Xiong*. Composite honeycomb sandwich columns under in-plane compression: Optimal geometrical design and three-dimensional failure mechanism maps. European Journal of Mechanics / A Solids，91（2022）104415. https://www.sciencedirect.com/science/article/pii/S0997753821001716 2021 [78] 熊健*, 李志彬, 刘惠彬, 冯丽娜, 赵云鹏, 孟凡壹. 航空航天轻质复合材料壳体结构研究进展, 复合材料学报, 38：06（2021）1629-1650 https://www.cnki.com.cn/Article/CJFDTOTAL-FUHE202106001.htm [77] 杜昀桐, 熊健*, 张睿, 刘惠彬, 张超, 朱烨, 钟海罡, 王继辉, 李旭. 面芯增强泡沫夹芯结构复合材料工艺技术及力学性能, 复合材料科学与工程，7（2021）111-120 https://www.cnki.com.cn/Article/CJFDTOTAL-BLGF202107017.htm [76] Hui Li，Dongsheng Wang，Zhengyang Xiao，Zhaoye Qin*，Jian Xiong，Qingkai Han， XiangpingWang. Investigation of vibro-impact resistance of fiber reinforced composite plates with polyurea coating with elastic constraints，Aerospace Science and Technology，121（2022）107196. https://doi.org/10.1016/j.ast.2021.107196 [75] Hui Li，Wenyu Wang，Qingshan Wang，Qingkai Han，Jinguo Liu，Zhaoye Qin，Jian Xiong*，Xiangping Wang. Static and dynamic performances of sandwich plates with magnetorheological elastomer core: Theoretical and experimental studies，Journal of Sandwich Structures & Materials，24：3（2022）1556-1579 https://journals.sagepub.com/doi/abs/10.1177/10996362211053620?journalCode=jsma [74] Qianqian Wu，Zongbing Chen，Jian Xiong*，Zhenyu Wang*，Chenglin Yang. Computational Studies of Porous Head Protection Structures for Human Cranium under Impact Loading. Acta Mechanica Solida Sinica，34：4（2021）477-493. https://link.springer.com/article/10.1007/s10338-021-00222-2?utm_source=xmol [73] Qianqian Wu，Jian Xiong*. Influence of modeling approaches and structural parameters on impact resistance of the human porous cranium，Acta Mechanica Sinica，37：6（2021）910-928 https://link.springer.com/article/10.1007/s10409-021-01077-z [72] Qianqian Wu，Ranajay Ghosh，Xinyu Wei，Jiecai Han，Linzhi Wu，Jian Xiong*. Theoretical prediction model and failure mechanism map of human skull porous structures with quasi-static bending performance. International Journal of Mechanical Sciences，200（2021）106431 https://www.sciencedirect.com/science/article/pii/S0020740321001661 [71] Ying Gao，Xingyu Wei，Xingkai Han，Zhengong Zhou，Jian Xiong*. Novel 3D auxetic lattice structures developed based on the rotating rigid mechanism，International Journal of Solids and Structures，233（2021）111232 https://www.sciencedirect.com/science/article/pii/S0020768321003206 [70] Hui Li，Xintong Wang，Xiaoyue Hu，Jian Xiong*，Qingkai Han，Xiangping Wang，Zhongwei Guan. Vibration and damping study of multifunctional grille composite sandwich plates with an IMAS design approach，Composites Part B，223（2021）109078 https://www.sciencedirect.com/science/article/pii/S1359836821004625?via=ihub [69] Hui Li，Zelin Li，Babak Safaei，Wanchong Rong，Wenyu Wang，Zhaoye Qin*，JianXiong. Nonlinear vibration analysis of fiber metal laminated plates with multiple viscoelastic layers，Thin-Walled Structures，168（2021）108297 https://www.sciencedirect.com/science/article/pii/S0263823121005048?via=ihub [68] Hui Li，Xuhui Ren，Changshuai Yu，Jian Xiong*，Xiangping Wang，Jing Zhao*. Investigation of vibro-acoustic characteristics of FRP plates with porous foam core，International Journal of Mechanical Sciences，209（2021）106697 https://www.sciencedirect.com/science/article/pii/S0020740321004288?via=ihub [67] Hui Li，Haiyu Lv，Jianfei Gu，Jian Xiong，Qingkai Han，Jinguo Liu，Zhaoye Qin*. Nonlinear vibration characteristics of fibre reinforced composite cylindrical shells in thermal environment. Mechanical Systems and Signal Processing，156（2021）107665 https://www.sciencedirect.com/science/article/pii/S0888327021000601?via=ihub [66] Yuntong Du，Thomas Keller，Changping Song，Linzhi Wu，Jian Xiong*. Origami-inspired Carbon Fiber-Reinforced Composite Sandwich Materials – Fabrication and Mechanical Behavior. Composites Science and Technology，205（2021）108667 https://www.sciencedirect.com/science/article/pii/S0266353821000233 [65] Hui Li，Zelin Li，Zhengyang Xiao，Xiangping Wang，Jian Xiong*，Jin Zhou，Zhongwei Guan. Development of an integrated model for prediction of impact and vibration response of hybrid fiber metal laminates with a viscoelastic layer，International Journal of Mechanical Sciences，197（2021）106298 https://www.sciencedirect.com/science/article/pii/S0020740321000333?via=ihub [64] Hui Li，Haiyu Lv，Hai Sun，Zhaoye Qin*，Jian Xiong，Qingkai Han，Jinguo Liu，Xiangping Wang. Nonlinear vibrations of fiber-reinforced composite cylindrical shells with bolt loosening boundary conditions，Journal of Sound and Vibration，496（2021）115935. https://www.sciencedirect.com/science/article/pii/S0022460X21000079?via=ihub [63] Yuntong Du，Thomas Keller，Changping Song，Zhenqian Xiao，Linzhi Wu，Jian Xiong*. Design and foldability of Miura-based cylindrical origami structures，Thin-Walled Structures，159（2021）107311 https://www.sciencedirect.com/science/article/pii/S0263823120311782 [62] Ying Gao，Zhengong Zhou，Hong Hu，Jian Xiong*. New concept of carbon fiber reinforced composite 3D auxetic lattice structures based on stretching-dominated cells. Mechanics of Materials，152（2021）103661 https://www.sciencedirect.com/science/article/pii/S0167663620306955 [61] Yishu Su，Ying Li，Tianzhi Yang，Tiancheng Han，Yuguo Sun，Jian Xiong*，Linzhi Wu*，Cheng-Wei Qiu. Path-Dependent Thermal Metadevice beyond Janus Functionalities. 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Composite tree-like re-entrant structure with high stiffness and controllable elastic anisotropy，International Journal of Solids and Structures，206（2020）170-182. https://www.sciencedirect.com/science/article/pii/S0020768320303413 [57] Hui Li，Wenyu Wang，Xintong Wang，Qingkai Han，Jinguo Liu，Zhaoye Qin，Jian Xiong*，Zhongwei Guan. A nonlinear analytical model of composite plate structure with an MRE function layer considering internal magnetic and temperature fields，Composites Science and Technology，200（2020）108445 https://www.sciencedirect.com/science/article/pii/S0266353820322351?via=ihub [56] 邓云飞, 曾宪智, 周翔, 李向前, 熊健*. 复合材料褶皱夹芯结构研究进展, 复合材料学报, 37：12（2020）2966-2983 (Professor Xiong is the Corresponding author, in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-FUHE202012003.htm [55] Xingyu Wei，Jian Xiong*，Jie Wang，Wu Xu. 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Bending characteristics of all-composite hexagon honeycomb sandwich beams: experimental tests and a three-dimensional failure mechanism map，Mechanics of Materials，148（2020）103401 https://www.sciencedirect.com/science/article/pii/S0167663619308488 [50] Wen Yang，Jian Xiong*，Li-Jia Feng，Chong Pei，Lin-Zhi Wu. Fabrication and mechanical properties of three dimensional enhanced lattice truss sandwich structures. Journal of Sandwich Structures and Materials，22：5（2020）1594-1611 http://journals.sagepub.com/doi/10.1177/1099636218789602 2019 [49] 熊健*, 吴倩倩. 人头盖骨微观组织结构及能量吸收机制研究, 力学与实践, 41：6（2019）653-657 (Professor Xiong is the Corresponding author, in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-LXYS201906004.htm [48] Soroush Kamrava，Ranajay Ghosh，Jian Xiong，Samuel M. Felton，Ashkan Vaziri*. Origami-equivalent compliant mechanism，Applied Physics Letters，115（2019）171904 https://aip.scitation.org/doi/10.1063/1.5115790 [47] Xingyu Wei，Dafu Li，Jian Xiong*. Fabrication and mechanical behaviors of an all-composite sandwich structure with a hexagon honeycomb core based on the tailor-folding approach， Composites Science and Technology (CSTE)，184（2019）107878 https://www.sciencedirect.com/science/article/pii/S0266353818325508 [46] Yuntong Du，Changping Song，Jian Xiong*，Linzhi Wu. Fabrication and Mechanical Behaviors of Carbon Fiber Reinforced Composite Foldcore Based on Curved-crease Origami，Composites Science and Technology (CSTE)，174（2019）94-105 https://www.sciencedirect.com/science/article/pii/S0266353818322292 [45] Qianqian Wu，Ashkan Vaziri，Mohamad Eydani Asl，Ranajay Ghosh，Ying Gao，Xingyu Wei，Li Ma，Jian Xiong*，Linzhi Wu. Lattice Materials with Pyramidal Hierarchy: Systematic Analysis and Three Dimensional Failure Mechanism Maps，Journal of the Mechanics and Physics of Solids（JMPS），125（2019）112-144 https://www.sciencedirect.com/science/article/pii/S0022509618308330 [44] Bin Hu，Lin-Zhi Wu*，Jian Xiong，Li Ma，Wen Yang，Yang Jin. Mechanical properties of a node-interlocking pyramidal welded tube lattice sandwich structure，Mechanics of Materials，129（2019）290-305 https://www.sciencedirect.com/science/article/pii/S0167663618302618 [43] Wen Yang，Jian Xiong*，Linzhi Wu，Yuntong Du. Methods for enhancing the thermal properties of epoxy matrix composites using 3D network structures，Composites Communications，12 (2019) 14-20 https://www.sciencedirect.com/science/article/pii/S2452213918301761 2018 [42] Wu Xu*，ZZ Guo，Y Yu，Jian Xiong，Ying Gao. Experimental and analytical characterizations of finite interlaminar crack growth of 2D woven textile composites，Composite Structures，206（2018）713-721. https://www.sciencedirect.com/science/article/pii/S0263822318318944 [41] Jian Xiong*，Yutong Du，D. Mousanezhad，M. Eydani Asl，J. Norato，A. 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Effect of vacuum thermal cycling on the compression and shear performance of composite sandwich structures containng pyramidal truss cores，Composites Science and Technology，158（2018）2018,67-78 https://www.sciencedirect.com/science/article/pii/S026635381731446X [37] Qianqian Wu，Ying Gao，Xingyu Wei，Davood Mousanezhad，Li Ma，Ashkan Vaziri，Jian Xiong*. Mechanical properties and failure mechanisms of sandwich panels with ultra-lightweight three-dimensional hierarchical lattice cores，International Journal of Solids and Structures，132-133（2018）171-187 https://www.sciencedirect.com/science/article/pii/S0020768317304341 2017 [36] Li-jia Feng，Jian Xiong*，Li-hong Yang，Guocai Yu，Wen Yang，Linzhi Wu*. Shear and bending performance of new type enhanced lattice truss structures，International Journal of Mechanical Sciences，134（2017）589-598. http://www.sciencedirect.com/science/article/pii/S0020740317322385 [35] Juan Pablo Vitale，Gaston Francucci，Jian Xiong，Ariel Stocchi*. Failure mode maps of natural and synthetic fiber reinforced composite sandwich panels，Composites：Part A，94（2017）217-225 https://www.sciencedirect.com/science/article/pii/S1359835X1630450X [34] Qianqian Wu，Li Ma，Ying Gao，Jian Xiong*. A new fabrication method for hierarchical truss materials with millimeter-scale struts，Materials Letters，186（2017）1-6 http://www.sciencedirect.com/science/article/pii/S0167577X16314847 2016 [33] Qianqian Wu，Li Ma，Linzhi Wu，Jian Xiong*. A novel strengthening method for carbon fiber composite lattice truss structures，Composite Structures，153（2016）585-592 http://www.sciencedirect.com/science/article/pii/S0263822316310522 [32] Jin-shui Yang，Li Ma*，Rüdiger Schmidt，Ge Qi，Kai-Uwe Schr？der，Jian Xiong，Lin-zhi Wu. Hybrid lightweight composite pyramidal truss sandwich panels with high damping and stiffness efficiency，Composite Structures，148（2016）85-96 http://www.sciencedirect.com/science/article/pii/S0263822316302203 [31] Jian Xiong*，Ashkan Vaziri，Ranajay Ghosh，Hong Hu，Li Ma，Linzhi Wu. Compression behavior and energy absorption of carbon fiber reinforced composite sandwich panels made of three dimensional grid cores，Extreme Mechanics Letters，7（2016）114-120 http://www.sciencedirect.com/science/article/pii/S2352431616300347 [30] Jian Xiong*，Lina Feng，Ranajay Ghosh，Huaping Wu，Linzhi Wu，Li Ma，Ashkan Vaziri*. Fabrication and mechanical behavior of carbon fiber composite sandwich cylindrical shells with corrugated cores，Composite Structures，156（2016）307-319 https://www.sciencedirect.com/science/article/pii/S026382231500940X 2015 [29] 熊健*, 郑伟, 冯丽娜, 孟凡壹, 陆宇阳. 波纹板-金字塔多级点阵结构力学性能及失效机制研究. 固体力学学报, 36（2015）124-131 (Professor Xiong is Corresponding author, in Chinese) http://www.cnki.com.cn/Article/CJFDTotal-GTLX2015S1019.htm [28] 冯丽娜, 熊健*, 郑伟, 杨金水, 吴林志. 复合材料波纹夹层圆柱壳设计及轴压性能. 复合材料学报, 33:2（2016）418-429 (Professor Xiong is Corresponding author, in Chinese) https://www.cnki.com.cn/Article/CJFDTOTAL-FUHE201602026.htm [27] Jin-shui Yang，Jian Xiong (Co-supervisor)， Li Ma*，Li-Na Feng，Shu-Yang Wang，Lin-Zhi Wu. Modal response of all-composite corrugated sandwich cylindrical shells. Composites Science and Technology，115（2015）9-20 http://www.sciencedirect.com/science/article/pii/S0266353815001736 [26] Jian Xiong*，Robert Mines，Ranajay Ghosh，Ashkan Vaziri，Li Ma，Arne Ohrndorf，H.J. Christ， Linzhi Wu*. 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Bending behavior of lightweight sandwich-walled shells with pyramidal truss cores，Composite Structures，116（2014）793-804 http://www.sciencedirect.com/science/article/pii/S026382231400275X [22] Jinshui Yang，Jian Xiong(Co-supervisor)，Li Ma*，Guoqi Zhang，Xintao Wang，Linzhi Wu. Study on vibration damping of composite sandwich cylindrical shell with pyramidal truss-like cores，Composite Structures，117（2014）362-272 http://www.sciencedirect.com/science/article/pii/S026382231400316X [21] Jian Xiong*，Meng Zhang，Ariel Stocchi，Hong Hu，Li Ma，Linzhi Wu*，Zhong Zhang. Mechanical behaviors of carbon fiber composite sandwich columns with three dimensional honeycomb cores under in-plane compression，Composites: Part B，60（2014）350-358 http://www.sciencedirect.com/science/article/pii/S1359836813007798 [20] Jian Xiong*，Ranajay Ghosh，Li Ma，Ashkan Vaziri，Yulong Wang，Linzhi Wu*. Sandwich-walled cylindrical shells with lightweight metallic lattice truss cores and carbon fiber reinforced composite face sheets，Composite: part A，56（2014）226-238 http://www.sciencedirect.com/science/article/pii/S1359835X13002832 [19] Jian Xiong*，Li Ma，Ariel Stocchi，Jinshui Yang，Linzhi Wu，Shidong Pan*. Bending response of carbon fiber composite sandwich beams with three dimensional honeycomb cores，Composite Structures，108（2014）234-242 http://www.sciencedirect.com/science/article/pii/S0263822313004820 [18] Jian Xiong*，Bing Wang，Li Ma*，Jim Papadopoulos，Ashkan Vaziri，Linzhi Wu. Three-dimensional Composite Lattice Structures Fabricated by Electrical Discharge Machining，Experimental Mechanics 54（2014）405-412. http://link.springer.com/article/10.1007/s11340-013-9801-y [17] Jia Lou，Linzhi Wu*，Li Ma，Jian Xiong，Bing Wang. Effects of local damage on vibration characteristics of composite pyramidal truss core sandwich structure，Composites: Part B，62（2014）73-87. http://www.sciencedirect.com/science/article/pii/S1359836814000894 2013 [16] Jinshui Yang，Jian Xiong(Co-supervisor)，Li Ma*，Bing Wang，Guoqi Zhang，Linzhi Wu. Vibration and damping characteristics of hybrid carbon fiber composite pyramidal truss sandwich panels with viscoelastic layers，Composite Structures，106（2013）570-580 http://www.sciencedirect.com/science/article/pii/S0263822313003383 [15] Bing Wang*，Jian Xiong，Xiaojun Wang，Li Ma，Guo-qi Zhang，Lin-zhi Wu，Ji-cai Feng. Energy absorption efficiency of carbon fiber reinforced polymer laminates under high velocity impact， Materials and Design，50（2013）140-148 http://www.sciencedirect.com/science/article/pii/S0261306913000691 [14] Guoqi Zhang，Bing Wang，Li Ma，Jian Xiong，Linzhi Wu*. Response of sandwich structures with pyramidal truss cores under the compression and impact loading，Composite Structures，100（2013）451-463 http://www.sciencedirect.com/science/article/pii/S0263822313000494 [13]Guoqi Zhang，Bing Wang，Li Ma，Jian Xiong，Jinshui Yang，Linzhi Wu*. The residual compressive strength of impact-damaged sandwich structures with pyramidal truss cores，Composite Structures， 105（2013）188-198 http://www.sciencedirect.com/science/article/pii/S0263822313002262 2012 [12] Jian Xiong*，Li Ma，Shidong Pan，Linzhi Wu*，Jim Papadopoulos，Ashkan Vaziri. Shear and Bending Performance of Carbon Fiber Composite Sandwich Panels with Pyramidal Truss Cores，Acta Materialia，60（2012）1455-1466 http://www.sciencedirect.com/science/article/pii/S1359645411008184 [11] Jian Xiong*，Li Ma，Ashkan Vaziri，Jinshui Yang，Linzhi Wu*. Mechanical Behavior of Carbon Fiber Composite Lattice Core Sandwich Panels Fabricated by Laser Cutting，Acta Materialia，60（2012）5322-5334. http://www.sciencedirect.com/science/article/pii/S1359645412003655 [10] Jian Xiong*，Ashkan Vaziri，Li Ma，Jim Papadopoulos，Linzhi Wu*. Compression and Impact Testing of Two Layer Composite Pyramidal-core Sandwich Panels，Composite Structures，94（2012）793-801 http://www.sciencedirect.com/science/article/pii/S026382231100362X [9] 吴林志*, 熊健, 马力, 王兵, 张国旗, 杨金水, 新型复合材料点阵结构的研究进展, 力学进展, 42:1 (2012) 41-67 https://www.cnki.com.cn/Article/CJFDTOTAL-LXJZ201201006.htm [8] 吴林志*, 熊健, 马力, 王兵, 泮世东, 刘海涛. 轻质夹层多功能结构一体化设计, 力学与实践, 34:3 (2012) 8-18 https://www.cnki.com.cn/Article/CJFDTOTAL-LXYS201204003.htm 2011 [7] Jian Xiong*，Li Ma，Linzhi Wu*，Jiayi Liu，Ashkan Vaziri. Mechanical Behavior and Failure of Carbon Fiber Composite Pyramidal Truss Core Sandwich Columns，Composite: Part B，42：4（2011）938-945 http://www.sciencedirect.com/science/article/pii/S1359836811000229 [6] Jian Xiong*，Li Ma，Linzhi Wu*，Ming Li，Ashkan Vaziri. Mechanical Behavior of Sandwich Panels with Hollow Al-Si Tubes Core Construction，Materials and Design，32（2011）592-597 http://www.sciencedirect.com/science/article/pii/S0261306910004917 [5] 熊健, 马力, 杨金水, 吴林志*. 碳纤维复合材料金字塔点阵结构制备工艺及力学性能研究, 固体力学学报, 32（2011）8-13 （EI源期刊） https://www.cnki.com.cn/Article/CJFDTOTAL-GTLX2011S1003.htm [4] Ming Li*，Linzhi Wu*， Li Ma，Jian Xiong，Zhenxi Guan，Torsion of Carbon Fiber Composite Pyramidal Core Sandwich Plates，Composite Structures，93（2011）2358-2367 http://www.sciencedirect.com/science/article/pii/S0263822311001085 [3] Jiayi Liu，Zhengong Zhou*，Li Ma，Jian Xiong，Linzhi Wu. Temperature Effects on the Strength and Crushing Behavior of Carbon Fiber Composite Truss Sandwich Cores，Composites: Part B，42（2011）1860-1866. https://www.sciencedirect.com/science/article/pii/S1359836811002812 2010 [2] Jian Xiong， Li Ma，Linzhi Wu*，Bing Wang，Ashkan Vaziri. Fabrication and Crushing Behavior of Low Density Carbon Fiber Composite Pyramidal Truss Structures，Composite Structures，92（2010）2695-2702 http://www.sciencedirect.com/science/article/pii/S026382231000111X [1] 李明*, 吴林志, 关正西, 马力, 熊健. 金属圆管增强夹芯柱屈曲分析. 工程力学, 27：12（2010）34-39 (EI收录，EI收录号为20110313592213) https://www.cnki.com.cn/Article/CJFDTOTAL-GCLX201012008.htm 会议论文 (Conference Publications/Presentations) 名称 [22] 熊健，等. 碳纤维复合材料蜂窝夹芯结构的设计和力学行为研究.第三届全国复合材料结构力学青年科学家论坛, 太仓, 中国, 2022. 9.2 (口头报告) [21]Jian Xiong, et al. Design and Mechanical Behaviors of Carbon Fiber Reinforced Polymer Honeycomb Sandwich Structure. The 5th International Conference on Material Strength and Applied Mechanics (MSAM 2022), Qingdao, China, Aug 20-22, 2022. (Invited Talk, Oral speaking) [20] Jian Xiong. Design and mechanical behaviors of lightweight composite lattice truss sandwich structures, 5th International Conference on Materials and Reliability (ICMR-2019), Jeju, South Korea, 2019.12.26-2019.12.29 (Invited Talk, English Oral speaking) [19] Jian Xiong. Mechanical performance of hierarchical pyramidal lattice materials and It’s three-dimensional failure mechanism maps, 22th International Conference on Composite Materials (ICCM22), Melbourne, Australia, 2019. 8.11-2019.08.16 (English Oral speaking) [18] 熊健，等. 轻质复合材料点阵桁架结构的设计及力学性能. 第三届中国国际复合材料科技大会 (CCCM-3), 杭州, 中国, 2017.10.21-23 (特邀报告) [17] Jian Xiong, Qianqian Wu, Yuntong Du, Xingyu Wei. Mechanical and Fracture Properties of Sandwich-wall Composite Cylinders with Lattice Truss Cores, 14th International Conference on Fracture (ICF 14), Rhodes, 2017.6.18-2017.6.23. (English Oral speaking) [16] Jian Xiong; Ying Gao. Mechanical behaviors of carbon fiber composite three-dimensional lattice grid structures, 24th International Congress of Theoretical and Applied Mechanics (ICTAM 2016), Montreal, Canada, 2016.8.21-2016.8.26 (English Oral speaking) [15] Jian Xiong; Ying Gao, Lina Feng. Design and Axial Compression of Composite Sandwich Cylindrical Shells with Corrugated Cores, 17th European Conference on Composite Materials (ECCM 2016), Munich, Germany, 2016.6.26-2016.6.30 (English Oral speaking) [14] Jian Xiong, H.-J. Christ. Micro-structural and mechanical characterization of cellular sandwich architectures in the mammal skull. Klausurtagung 2015.9.30-2015.10.2, Bonn, Germany. (German & English Oral speaking) [13] Jian Xiong et al. Fabrication and axial compressive behavior of composite sandwich cylindrical shells with pyramidal lattice truss. 20th International Conference on Composite Materials (ICCM 20), 2015.7.19-2015.7.24, Copenhagen, Denmark. (English Oral speaking) [12] 熊健，等. 超轻三维多级点阵结构力学性能及失效机制研究. 2014固体力学大会，四川成都，中国，2014.10.10-12. (口头报告) [11] 熊健，等. 超轻复合材料点阵结构力学行为研究. 2013复合材料力学研讨会，重庆，中国，2013.5.13-15. (口头报告) [10] Jian Xiong et al. Cellular Composite Materials. Klausurtagung-Siegen University, 2013.10.9 -11, Attendorn, Germany. (English Oral speaking) [09] Jian Xiong et al. Low Density Carbon Fiber Composite Pyramidal Truss Cores: Manufacturing, Experiments, Theory[C]. ASME 2012 International Mechanical Engineering Congress and Exposition, Houston, U.S.A, 2012.11.9-15. (English Oral speaking) [08] Jian Xiong et al. Mechanical Properties and Failure Modes of Carbon Fiber Composite Pyramidal Lattice Structures, 23rd International Congress of Theoretical and Applied Mechanics (ICTAM2012), Beijing, China, 2012.8.19-2012.8.24. (English Oral speaking) [07] Jian Xiong et al. Quasi-static Compressive and Low Velocity Impact Response of Multilayer Carbon Fiber Sandwich Panels with Pyramidal Truss Structures. 5th International Conference on Advanced Computational Engineering and Experimenting (ACE-X 2011), Algarve, Portugal, 2011.07.03-06. (English Oral speaking) [06] Jian Xiong et al. Carbon Fiber Composite Sandwich Panels with Pyramidal Truss-like Cores. New England Workshop on the Mechanics of Materials and Structures. Boston, U.S.A, 2011.10.01. (Poster) [05] Jian Xiong et al. Fabrication and Mechanical Behaviors of Carbon Fiber Composite Sandwich Panels with Pyramidal Truss-like Cores. 12th Annual Research and Industrial Collaboration Conference. Boston, U.S.A.2011.10.13-14. (Poster) [04] Jian Xiong et al. Quasi-static Compression and Low Velocity Impact Response of Carbon Fiber Sandwich Panels with 8-truss Kagome Cores[C]. 16th International Conference on Composite Structures (ICCS16), Porto, Portugal, 2011.06. 28-30. [03] 熊健. 碳纤维复合材料点阵夹芯结构力学性能研究. 2010全国固体力学学术会议, 武汉, 中国, 2010.11.11-14. (口头报告, Chinese Oral speaking) [02] Jian Xiong et al. Mechanical Behavior of Low Density Carbon Fiber Composite Pyramidal Truss Structures. International Workshop between Harbin Univ. of Tech. and Hanyang Univ. Chemical Eng. & Materials Sci. Eng. Seoul, South Korea, 2010. March 14-17. (Poster) [01] 熊健. 铝硅合金空心圆管夹芯结构基本力学性能分析. 中国力学学会学术大会, 郑州, 中国,2009. 8.24-26. (口头报告, Chinese Oral speaking) 发明专利(Patents) 名称 已授权的发明专利： [24] 熊健，李志彬，薛鹏程，王文煜，韦兴宇. 一种复合材料波纹夹芯圆台的成型模具及成型方法: 中国，ZL202310259362.1. 2023-9-15 [23] 熊健，龚程，王文煜，韦兴宇. 一种大尺寸空间点阵结构: 中国，ZL202310136520.4. 2023-09-15 [22] 熊健，龚程，王焱，韦兴宇.环形基地单元模块及使用其模块建造的模块化环形月面基地: 中国，ZL202310136521.9. 2023-08-29 [21] 熊健，刘青旭，高英. 制备金字塔点阵芯子的模具及金字塔点阵芯子的制备方法:中国，ZL2021 11375902.X .2023-1-3 [20] 熊健，李志彬，韦兴宇，王焱，陈宗兵. 一种复合材料曲面蜂窝的制备方法:中国， ZL202111375897.2.2023-1-3 [19] 熊健，陈宗兵，韦兴宇. 一种三维可堆叠的自锁型曲壁波纹吸能装置:中国， ZL202111399291.2.2023-1-3 [18] 熊健，李志彬，高英，薛鹏程，韦兴宇. 一种制备复合材料曲面蜂窝结构件的模具及该结构件的制备方法: 中国， ZL202111399294.6.2022-11-18 [17]熊健，杜昀桐，宋长平，肖镇骞. 新型桁架式人体管道支架: 中国，ZL201910354570.3.2020-11-17 [16] 熊健，张云策，韦兴宇. 一种复合材料矩形截面弹簧模具及利用该模具制备弹簧的方法: 中国，ZL201710615994.1.2019-07-16 [15] 熊健，刘贞谷，杜严锋，郑博文，杨琨. 一种用于制备复合材料褶皱夹芯结构的组装模具: 中国， ZL201510154891.0.2017-04-12 [14] 熊健，郑伟，孟凡壹，吴林志，马力. 周期微观桁架嵌片以及周期微观桁架结构体的制造方法: 中国，ZL201510130768.5.2017-01-04 [13] 熊健，马力，吴林志，王兵，张国旗. 一种采用纤维编织布制备金字塔型点阵夹芯板的方法: 中国，ZL201010276965.5.2013-06-05 [12] 熊健，马力，吴林志，刘加一，周振功. 金字塔型格栅板及制造该格栅板的嵌条及格栅点阵夹芯板的制备方法: 中国， ZL201010266377.3.2013-06-05 [11] 熊健，马力，吴林志，王志勇，王明亮. 采用电火花打孔制备轻质点阵夹芯板的方法: 中国， ZL201010280811.3.2012-12-12 [10] 熊健，马力，吴林志，王志勇，泮世东. 采用机械钻孔制备轻质点阵夹芯板的方法: 中国， ZL201010282030.8.2012-11-21 [9] 熊健，吴林志，马力，王兵. 一种用于制备纤维增强金字塔点阵夹芯板芯子的组装模具: 中国， ZL200910073307.3.2012-07-25 [8] 冯丽娜，熊健，郑伟，杨金水，吴林志. 一种全复合材料波纹夹层圆柱壳的组合模具: 中国， ZL201510172294.0.2017-03-22 [7] 吴林志，熊健，泮世东，彭亮，马力. 采用纤维编织预浸布制备复合材料点阵夹芯板的方法: 中国，ZL201010522716.X.2013-03-13 [6] 吴林志，熊健，马力，赵望安，齐学飞. 采用线切割打孔制备轻质点阵夹芯板的方法: 中国， ZL201010281933.4.2012-12-12 [5] 马力，熊健，吴林志，齐学飞，王孟孟. 制备纤维复合材料点阵夹芯板的模具及应用该模具制备点阵夹芯板的方法: 中国， ZL201010276964.0.2012-12-12 [4] 吴林志，熊健，马力，殷莎，王明亮. 采用激光切孔制备轻质点阵夹芯板的方法: 中国， ZL201010281190.0.2012-11-21 [3] 吴林志，熊健，马力，刘加一. 一种用于制备纤维增强蛋壳型点阵夹芯板芯子的组装模具: 中国， ZL200910073306.9.2011-08-17 [2] 吴倩倩，赵洋，熊健，吴林志. 一种微点阵结构的应用：中国，ZL202110626732.1.2022-6-10 [1] 吴林志，于国财，熊健，一种集导热与承载于一体的轻质点阵结构夹芯板的制备方法：ZL201510056160.2.2016-07-06 Typical Journals Links 名称 Science http://www.sciencemag.org/journals Nature http://www.nature.com/nature/index.html Nature Materials http://www.nature.com/nmat/index.html Progress in Materials Science http://www.journals.elsevier.com/progress-in-materials-science/ Advanced Materials http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1521-4095 Acta Materialia http://www.journals.elsevier.com/acta-materialia/ Composites Science and Technology http://www.journals.elsevier.com/composites-science-and-technology/ Composites Part A http://www.journals.elsevier.com/composites-part-a-applied-science-and-manufacturing/ Journal of the Mechanics and Physics of Solids http://www.journals.elsevier.com/journal-of-the-mechanics-and-physics-of-solids/ International Journal of Solids and Structures http://www.journals.elsevier.com/international-journal-of-solids-and-structures/ Journal of Applied Mechanics http://appliedmechanics.asmedigitalcollection.asme.org/journal.aspx Experimental Mechanics http://www.springer.com/engineering/mechanics/journal/11340 Advanced Engineering Materials http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1527-2648 Composite Structures http://www.journals.elsevier.com/composite-structures/ Composite Part B http://www.journals.elsevier.com/composites-part-b-engineering/ Materials and Design http://www.journals.elsevier.com/materials-and-design/ Materials Science and Engineering: A http://www.journals.elsevier.com/materials-science-and-engineering-a/ Journal of Sandwich Structures and Materials https://us.sagepub.com/en-us/nam/journal-of-sandwich-structures-materials/journal201586 Journal of Mechanics of Materials and Structures http://msp.org/jomms/about/cover/cover.html Opportunities (招贤纳士) 名称 本课题组研究方向主要集中在复合材料结构力学，包括超轻复合材料结构、夹层结构复合材料、结构轻量化及多孔结构的力学行为。 (1) 先进复合材料结构设计理论及力学性能 (2) 航空航天复合材料结构轻量化设计 (3) 生物多孔组织结构表征及力学性能研究 项目多为基础研究与应用研究相结合，科研经费充足，倡导创新，专注基础研究。既瞄准高水平文章，也具有明确的应用背景。 联系邮箱：jx@hit.edu.cn 提示：硕士研究生复试前后，提前将简历和本科指导教师推荐信发送至邮箱，进行考核并接收；博士研究生采用申请-考核制，提前一年联系。 -------------------------------------------------------------------------------------------------------------- Several visiting, Postdoctoral fellow, graduate and undergraduate research positions are available. If you are interested, please email your CV along with a cover letter expressing your background and research interests to Professor Dr.Jian Xiong. Members (团队成员) 名称 Principal Investigator: Dr. Jian Xiong, Professor, Email: jx@hit.edu.cn 博士研究生 Ph.D Students 2019级秋博 李志彬(Zhibin Li) 研究方向：复合材料曲面结构力学性能 2019级秋博 陈宗兵 (Zhongbing Chen)研究方向：新型高比吸能自锁系统的设计及性能研究 2020级秋博 薛鹏程(Pengcheng Xue)研究方向：复合材料蜂窝夹芯结构面芯界面力学性能 2020级秋博 Rouis Abir 研究方向：mechanics of two dimentional composite honeycomb materials （留学生） 2020级秋博 王焱(Yan Wang) 研究方向：复合材料夹心结构的动力学性能 2021级秋博 王文煜(Wenyu Wang) 研究方向：复合材料网格承力筒结构设计、制备及力学性能研究 2021级春博 王勋(Xun Wang) 研究方向：轻质复合材料夹芯结构的振动性能研究 2021级秋博 龚程(Cheng Gong) 研究方向：复合材料结构力学性能 2021级秋博 付强(Qiang Fu) 研究方向：复合材料结构力学性能 2020级秋博 霍浩亮(Haoliang Huo) 研究方向：复合材料多功能一体化结构设计、制备及性能研究 （在职） 2022级秋博 刘青旭（Qingxu Liu）研究方向：复合材料结构力学性能 2022级秋博 曾宪智（Xianzhi Zeng） 研究方向：陶瓷基复合材料的断裂行为研究 2023级秋博 赵建（Jian Zhao） 研究方向：复合材料结构力学性能 硕士研究生 (Master Students) 2022级秋硕 罗庚(Geng Luo) 研究方向: 复合材料结构力学性能 2023级秋硕 闫承瑞(Chengrui Yan) 研究方向: 复合材料结构力学性能 毕业校友（部分）Former Students (In Partial) 2012博士 冯丽佳（Lijia Feng） 研究方向：新型沙漏金属点阵结构的力学性能与强化机理 毕业去向：哈尔滨工程大学 2012博士 杨金水（Jinshui Yang） 研究方向：新型轻质复合材料夹芯结构的振动阻尼特性研究 毕业去向：哈尔滨工程大学 2015博士 杨雯(Wen Yang) 研究方向：集承载-热控于一体的多功能轻质夹芯结构性能研究 毕业去向：山东理工大学 2015博士 吴倩倩(Qianqian Wu) 研究方向：生物多孔结构力学行为研究 毕业去向：哈尔滨工业大学 2016博士 杜昀桐(Yuntong Du) 研究方向：复合材料折纸结构设计及力学性能研究 毕业去向：中国船舶科学研究中心 2017博士 韦兴宇(Xingyu Wei) 研究方向：复合材料蜂窝夹心结构设计、制备及力学性能表征 毕业去向：哈尔滨工业大学 2018博士 宿一书(YIshu Su） 研究方向：宏观非对称热传递理论与实验 毕业去向：哈尔滨工业大学 2013本硕 冯丽娜 (Lina Feng) 研究方向：碳纤维复合材料波纹板结构(本科)，自然界多孔结构动态力学行为(硕士) 毕业去向：航天科研院所 2013硕士 孟凡壹 (Fanyi Meng) 研究方向：超轻多级结构设计及力学性能研究 毕业去向：航天科研院所 2014硕士 郑伟 (Wei Zheng) 研究方向：自然界多孔结构静态力学性能研究 毕业去向：中广核有限公司 2014硕士 张成雨 (Chengyu Zhang) 研究方向：导热聚合物设计及性能研究 毕业去向：史密斯公司 2017硕士 韩行锴 （Xingkai Han） 研究方向：轻质复合材料结构力学性能研究 毕业去向：四川航天系统工程研究所 2017硕士 周思彤（Sitong Zhou） 研究方向：褶皱夹芯结构吸音降噪性能研究 毕业去向：上海飞机设计研究院 2018硕士 刘从灵（Congling Liu） 研究方向：复合材料火箭机架典型力学性能研究 毕业去向：中国航发商发 2019硕士 胡少杰（Shaojie Hu） 研究方向：J型复合材料加筋板压缩屈曲及后屈曲行为研究 毕业单位：北京航天动力研究所 2020硕士 石江涛(Jiangtao Shi) 研究方向：复合材料承力筒的设计及承载性能研究 毕业去向：航天科研院所 2020硕士 刘青旭(Qingxu Liu) 研究方向：多级蒙皮夹心结构抗屈曲性能研究 毕业去向：本校读博 2021硕士 赵长昊(Changhao Zhao) 研究方向：加筋圆柱壳复合材料遮光罩结构设计与力学性能研究 毕业去向：赴英深造 2021硕士 焦轶涵(Yihan Jiao) 研究方向：复合材料蜂窝结构弯曲赋形研究 毕业去向：航天科研院所 2012本科 陆宇阳 (Yuyang Lu) 研究方向：多级结构设计及力学性能 毕业去向: 中国科学技术大学读研 2016本科 王文佳（Wenjia Wang） 研究方向：汽车复合材料弹簧设计及性能研究 毕业去向：赴美读研 Excellent Student Events (优秀学生动态) 名称 本科生 李傅杉 获得2017年“光威杯”全国大学生竞赛东北赛区第八名 本科生 李傅杉 获得2018年大一年度项目中获得院级 二等奖 本科生 李傅杉 获得2018年大创结题国家级 优秀 本科生 金浩正 获得2018年大创结题国家级 优秀 本科生 宋长平 获得2018年第八届祖光杯创意创新创业大赛 铜奖 本科生 程诺 获得2018年载人月面着陆与上升飞行器创意方案征集大赛 优秀奖 本科生 程诺 获得2020年哈尔滨工业大学第十届 “祖光杯”创新创意创业大赛 银奖 本科生 程诺 获得2020年大学生创新创业训练计划国家级项目 一等奖 本科生 程诺 获得2021年第十七届工银融e联“挑战杯”黑龙江省大学生课外学术科技作品竞赛 一等 奖 本科生 程诺 2021年发明专利一项正申请受理中 本科生 程诺 获得2022年“中国航天日”小行星科普试验载荷创意设计 一等奖 本科生 程诺 获得2022年“中国航天日”小行星科普试验载荷创意设计 大学 最佳科普奖 硕士研究生 吴倩倩 获得2014年度国家奖学金 硕士研究生 冯丽娜 获得2015年度国家奖学金 硕士研究生 郑 伟 获得2015年度光华奖学金 硕士研究生 周思彤 获得2017年、2018年度研究生一等、二等奖学金 硕士研究生 赵长昊获2021年第26届中国日报社“21世纪·可口可乐杯”全国大学生英语演讲比赛黑龙江省二等奖 硕士研究生 胡少杰 获得2021年度黑龙江省力学优秀硕士学位论文 博士研究生 杨金水 获得2016年度国家公派联合培养奖学金，公派至德国亚琛工业大学 博士研究生 杨金水 获得2015年度国家奖学金 博士研究生 吴倩倩 获得2017年度国家公派联合培养奖学金，公派至加拿大麦吉尔大学 博士研究生 吴倩倩 获得2018年度国家奖学金 博士研究生 韦兴宇获得2022年度博士后创新人才支持计划 博士研究生 韦兴宇获得2022年度黑龙江省力学优秀博士学位论文 博士研究生 龚程获得2023年全国三维数字化创新设计大赛三等奖 博士研究生 龚程获得“建行杯”第九届中国国际“互联网+”大学生创新创业大赛黑龙江赛区银奖 Group Culture (团队文化) 名称 Honesty, Strive, Fraternal unity Strict criterions,Solid Skills ------------------------------------ 诚实，奋进，团结友爱 规格严格，功夫到家 研究领域 名称 “航天器每一个零件减少1克重量都是贡献”-钱学森先生早在1961年讲授《星际航行概论》课时指出。为了实现飞行器减轻重量、增加有效载荷的目的，发展先进轻质复合材料结构，实现结构轻量化和多功能化是迫切需要解决的科学问题。申请人在这个研究背景下，一直从事超轻复合材料结构设计、制备、力学性能表征与评价的系统性研究工作。 轻质复合材料点阵结构设计及力学性能研究 格栅结构和点阵结构等被认为是当前最富有前景的新一代先进轻质超强韧材料，并已开始应用于航空航天结构。轻质复合材料点阵结构方面，在国家重大基础研究计划(973计划)、国家自然科学基金重点项目、国家自然科学基金面上/青年基金项目等资助下，近年来主要取得如下研究成果： (1) 在成功开发了多种制备工艺的基础上，制备了多种拓扑构型的全复合材料点阵夹芯结构； (2) 提出了复合材料点阵夹芯结构在平压和剪切作用下的力学分析模型，揭示了其失效机理，得到了侧压和弯曲载荷作用下的失效机制图，探讨了夹芯结构的冲击失效机理和阻尼特性； (3) 设计了有重要工程应用背景的复合材料点阵/波纹夹芯曲面壳及圆柱壳，研究了弯曲和轴压作用下的失效机制，并绘制了失效机制图，揭示了结构的振动阻尼特性。 超轻多级点阵结构设计及力学性能研究 在国家自然科学基金青年基金项目资助下，结合自然界多级思想，采用3D打印技术，设计并制备出超轻聚合物多层级点阵夹心结构，提高了芯子杆件抗屈曲的能力，使整体力学性能得到增强。与已有文献夹芯结构压缩强度进行比较发现：设计并提出的多级点阵结构具有最佳的轻量化效果。基于力学理论预报模型，绘制了平压、剪切、侧压及三点弯曲载荷下多级点阵结构的3维失效机制图，定量研究了结构几何尺寸变化对结构失效模式的影响。 复合材料褶皱夹芯结构设计及力学性能研究 针对航空航天飞行器蜂窝芯子单胞封闭的问题，在国家自然科学基金面上项目、教育部博士点基金和优秀留学归国人员基金项目资助下，提出了基于曲面折纸的新型褶皱结构，发明了碳纤维复合材料褶皱结构的高性能制备工艺，建立了力学理论预报模型，揭示了复合材料褶皱结构的失效机制。褶皱结构用于航空发动机机匣可以实现吸声降噪；具有开放单胞的褶皱结构用于替换直升机和游艇的芳纶纸蜂窝，有利于水汽的排出；复合材料褶皱结构用于军车可以实现减重以及提高其防爆性能。 轻质自然界多孔材料微观结构表征及其力学性能 头盖骨对于维持生命安全具有极其重要的作用，头盖骨受到外物挤压及撞击造成的损伤是临床医疗中常见的颅骨外伤疾病，从而需要针对破损位置进行仿生替代。目前，针对头盖骨力学机制的研究还很不完善。在德国洪堡基金、哈工大青年拔尖以及创新基金等项目资助下，我们从多孔夹芯结构角度出发，建立了头盖骨在压缩、弯曲、冲击、爆炸等载荷下合适的理论及数值模型，准确揭示头盖骨力学机制，为未来的工程应用提供必要可靠的技术储备。 集承载-热控于一体的多功能轻质夹芯结构设计及性能研究 针对可重复使用高马赫飞行器结构轻量化需求，在国家自然科学基金创新群体研究项目、国家自然科学基金重点项目、总装备部预研及航天院所合作项目资助下，开展集承载-热控于一体的多功能轻质夹芯结构的力学性能、热变形、传热性能分析及参数优化。 基于拓扑强化及材料强化相结合，设计并制备出了多种具有高强度、低密度的铝点阵结构，同时揭示了铝点阵夹芯结构的失效机制。在保证轻量化的基础上，使得结构的热变形尽可能小。 碳纤维复合材料蜂窝结构折叠工艺及力学性能研究 传统的蜂窝芯子多为芳纶纸或铝合金，我们创新性提出了基于剪纸思想的折叠技术，采用先进碳纤维复合材料，设计并制备了轻质高强的全碳纤维复合材料蜂窝结构，为复合材料蜂窝芯子提供了多种可设计的构型，揭示了裁剪折叠工艺制备的夹心结构的吸能及失效机制；由裁剪折叠工艺所制备的全碳纤维复合材料蜂窝结构可用于航天结构上的轻质减重、防护结构上抗爆吸能以及航空航天异型复杂结构设计等方面。 轻质复合材料三维负泊松比结构设计及力学性能研究 基于二维负泊松比构型提出了多种三维负泊松比结构，有效的丰富了三维负泊松比材料库。 对三维负泊松比结构进行力学性能表征，为其应用奠定了理论基础；三维负泊松比结构具有优越的防爆、抗爆力学性能，可用于军舰外壳以及军车底盘防爆设计；三维负泊松比结构可用于医疗植入结构物设计，使用寿命较传统材料更长；采用三位负泊松比结构设计的汽车轮胎具有更好的减震效果。 复合材料风机叶片双轴向布结构优化设计及力学性能分析 针对复合材料风机叶片结构中使用的双轴向布模型进行优化，在保证结构达到轻量化目标的同时提高结构在五种加载方式下的结构强度。复合材料双轴向布优化模型用于风力发电机中可以提高风力发电机对风能的利用率，同时，独特的复合材料编织结构在其它叶片结构中也能发挥一定的力学优势。相关设计方案已经提供给科技企业，从而提升复合材料风机叶片的服役效率。 Important Links (重要链接) 名称 Research Group Cellular Materials Laboratory http://www.cellmat.es/index.php/home HRL Laboratories, LLC http://www.hrl.com/hrlDocs/pressreleases/2011/prsRls_111117.html Fraunhofer IFAM Dresden http://www.ifam.fraunhofer.de/en/Dresden/Cellular_metallic_materials/Drahtgitterstrukuturen.html Fraunhofer IFAM Bremen http://www.ifam.fraunhofer.de/en/Bremen/Shaping_Functional_Materials/Powder_Technology/Lightweight_Materials.html RWTH Aachen Uni, Institute ofStructural Mechanics and Lightweight Design http://www.sla.rwth-aachen.de/ Alcoa Foundation-LightweightVehicles http://www.iie.org/Programs/Alcoa-Foundation-Advancing-Sustainability-Research/Lightweight-Vehicle-Structures Institute for LightweightStructures and Conceptual Design, Uni Stuttgart www.uni-stuttgart.de/ilek Researchers from U.S.A Prof. John W.Hutchinson http://www.seas.harvard.edu/hutchinson/ Prof.Ashkan Vaziri http://www.hpmsl.neu.edu/index.html Prof.Horacio Dante Espinosa http://clifton.mech.northwestern.edu/~espinosa/ Prof. Lorna J. Gibson http://web.mit.edu/dmse/csg/ Prof. Haydn N.Wadley http://www.virginia.edu/ms/research/wadley/ Prof.Katia Bertoldi http://bertoldi.seas.harvard.edu/ Prof. Anthony Evans http://engineering.ucsb.edu/faculty/profile/167 Prof. Lorenzo Valdevit http://valdevit.eng.uci.edu/index.htm Prof. Francis W. Zok http://engineering.ucsb.edu/faculty/profile/188 Prof. Lorenzo Valdevit http://valdevit.eng.uci.edu/index.htm Prof. Marc Zupan http://me.umbc.edu/dr-marc-zupan/ Prof. Howard James Rathbun http://people.llnl.gov/rathbun4 Prof.Julia R.Greer http://www.jrgreer.caltech.edu/home.php Prof. Roderic Lakes http://homepages.cae.wisc.edu/~lakes/ Prof. K.T.Tan http://metacomposites.uakron.edu/ Researchers from Germany Prof. Dr.-Ing. H.-J. Christ http://www.mb.uni-siegen.de/lmw/mitarbeiter/christ/index.html.en?lang=en Prof. John Banhart http://www.helmholtz-berlin.de/media/media/spezial/people/banhart/html/index.html Dr.-Ing. Sebastian Heimbs http://www.heimbs-online.de/publications.htm Prof. Dr. Martin Wegener http://www.aph.kit.edu/wegener/english/index.php Researchers from Hongkong, China Prof. Hu Hong http://www.itc.polyu.edu.hk/en/people/academic_staff_profile.html?id=4028e48629879613012987f1d8600024 Researchers from U.K Prof. Norman A. Fleck http://www-mech.eng.cam.ac.uk/profiles/fleck/ Prof. Michael F. Ashby https://www-edc.eng.cam.ac.uk/people/mfa2.html Prof. Vikram S.Deshpande http://www-mech.eng.cam.ac.uk/profiles/vsd/ Prof. Ken E. Evans https://emps.exeter.ac.uk/engineering/staff/keevans/publications Prof. Fabrizio Scarpa http://www.bristol.ac.uk/engineering/people/fabrizio-l-scarpa/ Dr. Sohrab Kazemahvazi http://www.eng.cam.ac.uk/profiles/sk525 Prof. Bob Mines http://www.liv.ac.uk/engineering/staff/robert-mines/ Dr. Guanhua Zhang https://emps.exeter.ac.uk/engineering/staff/gz221 Researchers from Canada Prof. Glenn D. Hibbard http://mse.utoronto.ca/faculty-staff/professors/hibbard/ Researchers from South Korea Prof. Ki Ju Kang http://65.54.113.26/Author/53504152/ki-ju-kang Researchers from Russia Prof. V.V.Vasiliev http://store.elsevier.com/V.V.-Vasiliev/ELS_1030222/ Researchers from Australia Prof. Evgeny Morozov https://research.unsw.edu.au/people/professor-evgeny-morozov Researchers from Sweden Prof. Dan Zenkert https://www.kth.se/profile/danz/ Prof. M.N.Velea http://www.unitbv.ro/dimec/Membri/Sefidelucrari/MNV.aspx Researchers from Qatar Prof. EL-Sadig Mahdi Ahmed Saad http://faculty.qu.edu.qa/elsadigms/saadcv.aspx Teaching Courses(讲授课程) 名称 [1] The Mechanical Mystery ofMaterials and Structures in the Nature (Underground) [Spring/Fall]《自然界材料与结构的力学奥秘》大一本科生-新生研讨课 [每年春季/秋季][2] Characterization and Evaluation of Composite Materials (Ph.D students) [Spring]《复合材料性能表征与评价》 博士研究生 [每年春季][3]Composites and Human life (Underground students)[Fall]《复合材料与人类生活》大二大三本科生-文化素质课[每年秋季][4] Special lecture of CompositeMaterials and Structures (Ph.D and Master students) [Spring/Fall]《复合材料与结构进展》专题课 博士研究生 [每年春季/秋季][5] Special lecture of SolidMechanics (Ph.D and Master students) [Spring/Fall]《固体力学》专题课 博士研究生 [每年春季/秋季][6]Design and Application of Composite Materials and Structures (Master students)《复合材料结构设计方法及应用》研究生[每年秋季] 教学研究 成果名称 Teaching Research (教学研究) 14级本科工程力学班 班主任 “拔尖优秀人才培养体系”教学研究