哈尔滨工业大学2021年博士研究生导师信息:熊健
2021.03.07 14:58

   2021年博士研究生招生入学考试工作已经展开,新东方在线考博频道将为广大2021考博考生发布转载各博士招生单位发布的2021年博士研究生招生简章、考博专业目录、考博参考书目、及导师联系方式,以下是哈尔滨工业大学2021年博士研究生导师信息:熊健。

  点击查看:全国各院校2021博士研究生招生简章汇总 

 

  Welcome to Prof. Dr. Jian Xiong’s Research Group

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

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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。

教育部长江学者(青年学者)、德国“洪堡学者基金”和DAAD学者获得者,黑龙江省龙江学者(青年学者)、黑龙江省优秀青年科学基金获得者、何鸿燊奖教金获得者、入选中国科协“青年托举人才”工程,入选哈工大“青年拔尖人才”和“基础研究杰出人才”计划,校优秀博士学位论文。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》、《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50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10余项,出版学术专著一部,获得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、青年基金和应急项目、军委科技委国防基金、军委科技委前沿创新基金、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、总装备部预研基金项目两项、总装“十一五”和“十二五”项目计划等等。

Email: jx@hit.edu.cn

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  Employment history (工作经历)

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

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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)

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

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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)

03.2016 Young Talents of the Chinese Society of Composite Materials

12.2015The Outstanding Youth Talent Plan of Harbin Institute of Technology

05.2015Excellent Guide Teacher Award for student activities of Harbin Institute ofTechnology

07.2014The Outstanding Doctoral Dissertations of Harbin Institute of Technology

04.2014The 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 ScienceAcademic achievement

11.2013 First prize of Harbin Science Academicachievement

09.2013 Fellowship from DAAD for visitingscholar at Germany

05.2012Outstanding Graduates in Harbin Institute of Technology 07.2011 Young ScientistAward was awarded by the committee at the International conference ACE-X 2011(Algarve, Portugal)-3 participators were award /300 participators

07.2011Ongoing excellent doctoral thesis prize in Harbin Institute of Technology

01.2011Fellowship from China Scholarship Council for visiting scholar at U.S.A

07.2010The Young Scholar Prize awarded by MOE of China

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2018.12 何鸿燊(SHATF)奖教金获得者

2017.01 黑龙江省自然科学一等奖 (排名第三)

2016.12 入选中国科协“青年托举人才工程” (工程力学)

2016.03 入选中国复合材料学会“青年人才库”

2015.12 入选校“青年拔尖人才计划”,破格 教授

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

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)

  Selected Key Publications

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

黑龙江省力学学会青年工作委员会副主任

黑龙江省青年科技工作者协会理事

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》et al.


中国力学学会 会员 Membersof the Chinese Society of Theoretical and Applied Mechanics

中国复合材料学会 会员 Members of the ChineseSociety of Composite Materials


[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,完成时间
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,完成时间
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)

https://www.researchgate.net/profile/Jian_Xiong6 Researchgate Page

https://scholar.google.com.sg/citations?user=fjCiuVEAAAAJ&hl=en Google Scholar


2020


[69] Yuntong Du, Thomas Keller, Changping Song, Linzhi Wu, Jian Xiong*, Jin Zhou, Zhongwei Guan. Origami-inspired Carbon Fiber-Reinforced Composite Sandwich Materials – Fabrication and Mechanical Behavior. Composites Science and Technology, 2021, in press.

https://www.sciencedirect.com/science/article/pii/S0266353821000233



[68] 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, 2021, in press.

https://www.sciencedirect.com/science/article/pii/S0020740321000333


[67] 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, 2021, 496, 115935.

https://www.sciencedirect.com/science/article/pii/S0022460X21000079


[66] Yuntong Du, Thomas Keller, Changping Song, Zhenqian Xiao, Linzhi Wu, Jian Xiong*. Design and foldability of Miura-based cylindrical origami structures. Thin-Walled Structures, 2021, 159, 107311.

https://www.sciencedirect.com/science/article/pii/S0263823120311782


[64] 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, 2021, 152, 103661.

https://www.sciencedirect.com/science/article/pii/S0167663620306955



2020

[63] Yishu Su, Ying Li, Tianzhi Yang, Tiancheng Han, Yuguo Sun, Jian Xiong*. Linzhi Wu*, Chengwei Qiu. Path-Dependent Thermal Metadevice beyond Janus Functionalities. Advanced Materials, 2020, 2003084.

https://www.onlinelibrary.wiley.com/doi/10.1002/adma.202003084


[62] Qianqian Wu, Chenglin Yang, Arne Ohrndorf, Hans-Jürgen Christ, Jiecai Han, Jian Xiong*. Impact behaviors of human skull sandwich cellular bones: Theoretical models and simulation. Journal of the Mechanical Behavior of Biomedical Materials, 2020, 104, 103669.

https://www.sciencedirect.com/science/article/pii/S1751616119315735#!



[61] Yunfei Deng, Yong Zhang, Xinke Xiao, Ang Hu, Huapeng Wu, Jian Xiong. Experimental and numerical study on the ballistic impact behavior of 6061-T651 aluminum alloy thick plates against blunt-nosed projectiles. International Journal of Impact Engineering, 2020, 144, 103659.

https://www.sciencedirect.com/science/article/pii/S0734743X20307302


[60] Ying Gao, Qianqian Wu, Xingyu Wei, Zhengong Zhou, Jian Xiong*. Composite tree-like re-entrant structure with high stiffness and controllable elastic anisotropy. International Journal of Solids and Structures, 2020, 206, 170-182.

https://www.sciencedirect.com/science/article/pii/S0020768320303413


[59] 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.

https://www.sciencedirect.com/science/article/pii/S0266353820322351


[58] 邓云飞, 曾宪智, 周翔, 李向前, 熊健(通讯作者). 复合材料褶皱夹芯结构研究进展, 复合材料学报, 2020, in press. (Professor Xiong is the Corresponding author, in Chinese)


[57] Xingyu Wei, Jian Xiong*, Jie Wang, Wu Xu. New advances in fiber-reinforced composite honeycomb materials (Invited). Science China Technological Sciences, 2020, 63 1348-1370.

https://link.springer.com/article/10.1007/s11431-020-1650-9


[56] 韦兴宇, 熊健*,王杰,徐武. 纤维增强复合材料蜂窝结构的研究进展, 中国科学:技术科学, 2020, 50(8), 1123-1124. (Professor Xiong is the Corresponding author, in Chinese)

https://www.cnki.com.cn/Article/CJFDTOTAL-JEXK202008011.htm


[55] 杨雯, 霍浩亮, 李海波, 张忠, 熊健. 航天多功能热控材料及结构研究进展(约稿), 强度与环境, 2020, in press. (Professor Xiong is the Corresponding author, in Chinese)

https://www.cnki.com.cn/Article/CJFDTOTAL-QDHJ202002001.htm


[54] 熊健(通讯作者), 杜昀桐, 杨雯, 吴倩倩, 徐学军, 姚东, 韦兴宇, 陈宗兵. 轻质复合材料夹芯结构设计及力学性能最新进展 (约稿), 宇航学报, 2020, 41(6), 749-760. (Professor Xiong is the Corresponding author, in Chinese)

http://www.cnki.com.cn/Article/CJFDTOTAL-YHXB202006013.htm


[53] Xingyu Wei, Qianqian Wu, Ying Gao, Jian Xiong*. Bending characteristics of all-composite hexagon honeycomb sandwich beams: experimental tests and a three-dimensional failure mechanism map. Mechanics of Materials, 2020, 148, 103401.

https://www.sciencedirect.com/science/article/pii/S0167663619308488


[52] 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, 2020, 22(5), 1594-1611.

http://journals.sagepub.com/doi/10.1177/1099636218789602


2019

[51] 熊健(通讯作者), 吴倩倩. 人头盖骨微观组织结构及能量吸收机制研究(约稿). 力学与实践,2019, 41(6), 653-657. (Professor Xiong is the Corresponding author, in Chinese)

http://lxsj.cstam.org.cn/CN/10.6052/1000-0879-19-314

[50] Soroush Kamrava, Ranajay Ghosh, Jian Xiong, Samuel M. Felton, Ashkan Vaziri. Origami-equivalent compliant mechanism. Appl. Phys. Lett. 2019, 115, 171904. https://aip.scitation.org/doi/10.1063/1.5115790

[49] 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), 2019, 184, 107878.

https://www.sciencedirect.com/science/article/pii/S0266353818325508

[48] 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.

https://www.sciencedirect.com/science/article/pii/S0266353818322292

[47] 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.

https://www.sciencedirect.com/science/article/pii/S0022509618308330

[46] 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, 2019,129,290-305.

https://www.sciencedirect.com/science/article/pii/S0167663618302618

[45] Wen Yang, Jian Xiong*, Linzhi Wu, Yuntong Du. Methods for enhancing the thermal properties of epoxy matrix composites using 3D network structures. Composites Communications,2019,12,14-20.

https://www.sciencedirect.com/science/article/pii/S2452213918301761


2018

[44] 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, 2018, 206,713-721.

https://www.sciencedirect.com/science/article/pii/S0263822318318944

[43] Jian Xiong*, Yutong Du, D. Mousanezhad, M. Eydani Asl, J.Norato, A. Vaziri*. Sandwich structures with prismatic and foam cores: A Review.Advanced Engineering Materials, 2018,1800036,1-19.

https://onlinelibrary.wiley.com/doi/full/10.1002/adem.201800036

[42] Chuanlei Li, Hongshuai Lei*, Yabo Liu, Xiaoyu Zhang, Jian Xiong, Hao Zhou*, Daining Fang. Crushing behavior of multi-layer metal lattice panel fabricated by selective laser melting. International Journal of Mechanical Sciences, 2018, 145,389-399.

https://www.sciencedirect.com/science/article/pii/S0020740318319404

[41] Qianqian Wu, Li Ma, Qiunan Liu, Lina Feng, Zhenyu Wang, Arne Ohrndorf,Hans-Jürgen Christ,Jian Xiong*. Impact response and energy absorption of human skull cellular bones. Journal of the Mechanical Behavior of Biomedical Materials, 2018, 81, 106-119.

https://www.sciencedirect.com/science/article/pii/S175161611830170X

[40] Xiaodong Li, Jian Xiong*, Li Ma, Linzhi Wu*, Xiangqiao Yan. Effect of vacuum thermal cycling on the compression and shear performance of composite sandwich structures containng pyramidal truss cores.Composites Science and Technology, 2018, 158, 67-78.

https://www.sciencedirect.com/science/article/pii/S026635381731446X

[39] 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, 2018, 132-133, 171-187.

https://www.sciencedirect.com/science/article/pii/S0020768317304341


2017

[38] Lijia Feng, Jian Xiong*, Lihong Yang, Guocai Yu, Wen Yang, Linzhi Wu*. Shear and bending performance of new type enhanced lattice truss structures. International Journal of Mechanical Sciences, 2017, 134, 589-598.

http://www.sciencedirect.com/science/article/pii/S0020740317322385

[37] Juan Pablo Vitale, Gaston Francucci, Jian Xiong, Ariel Stocchi*. Failure mode maps of natural and synthetic fiber reinforced composite sandwich panels. Composites Part A, 2017, 94, 217-225.

https://www.sciencedirect.com/science/article/pii/S1359835X1630450X

[36] Qianqian Wu, Li Ma, Ying Gao, Jian Xiong*. A new fabrication method for hierarchical truss materials with millimeter-scale struts. Materials Letters, 2017, 186: 1-6.

http://www.sciencedirect.com/science/article/pii/S0167577X16314847


2016

[35] Qianqian Wu, Li Ma, Linzhi Wu, Jian Xiong*. A novel strengthening method for carbon fiber composite lattice truss structures. Composite Structures, 2016, 153: 585-592.

http://www.sciencedirect.com/science/article/pii/S0263822316310522

[34] Jinshui Yang, Li Ma, Rudiger Schmidt, Ge Qi, Kai-Uwe Schroder, Jian Xiong, Linzhi Wu. Hybrid lightweight composite pyramidal truss sandwich panels with high damping and stiffness efficiency. Composite Structures, 2016, 148: 85-96.

http://www.sciencedirect.com/science/article/pii/S0263822316302203

[33] 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, 2016,7: 114-120.

http://www.sciencedirect.com/science/article/pii/S2352431616300347

[32] 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, 2016, 156, 307-319.

https://www.sciencedirect.com/science/article/pii/S026382231500940X


2015

[31] 熊健(通讯作者), 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, 2015, 36(S): 8-15.

http://www.cnki.com.cn/Article/CJFDTotal-GTLX2015S1019.htm

[30] 冯丽娜, 熊健(通讯作者), 郑伟, 杨金水, 吴林志. 波纹夹层圆柱壳复合材料设计及轴压性能研究. 复合材料学报,2015,in press. (Professor Xiong is Corresponding author, in Chinese)

http://fhclxb.buaa.edu.cn/CN/abstract/abstract12615.shtml

[29] Jinshui 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, 2015, 115:9-20.

http://www.sciencedirect.com/science/article/pii/S0266353815001736

[28] Jian Xiong, Robert Mines, Ranajay Ghosh, Ashkan Vaziri, Li Ma, Arne Ohrndorf, H.J. Christ, Linzhi Wu*. Advanced Micro-lattice materials. Advanced Engeering Materials, 2015, 17(9) 1253-1264.

http://onlinelibrary.wiley.com/doi/10.1002/adem.201400471/abstract

[27] Yuling Tang, Zhengong Zhou, Shidong Pan, Jian Xiong, Ying Guo. Mechanical property and failure mechanism of 3D carbon-carbon braided composites bolted joints under unidirectional tensile loading. Materials and Design, 2015, 65, 243-253.

http://www.sciencedirect.com/science/article/pii/S026130691400689X


2014

[26] Guocai Yu, Linzhi Wu, Li Ma, Jian Xiong. Low velocity impact of carbon fiber aluminum laminates. Composite Structures, 2014,119, 757-766.

http://www.sciencedirect.com/science/article/pii/S0263822314005029

[25] Jian Xiong, Ranajay Ghosh, Li Ma,H. Ebrahimi, A.M.S.Hamouda, Ashkan Vaziri, Linzhi Wu. Bending behavior of lightweight sandwich-walled shells with pyramidal truss cores. Composite Structures, 2014,116, 793-804.

http://www.sciencedirect.com/science/article/pii/S026382231400275X

[24] 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, 2014,117, 362-272.

http://www.sciencedirect.com/science/article/pii/S026382231400316X

[23] 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: Engineering, 2014, 60, 350-358.

http://www.sciencedirect.com/science/article/pii/S1359836813007798

[22] Jian Xiong, Jinshui Yang, Ranajay Ghosh, Li Ma, Linzhi Wu, Ashkan Vaziri. Sandwich-walled composite cylinders with lattice truss cores.submitted.

[21] 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, 2014, 56, 226-238.

http://www.sciencedirect.com/science/article/pii/S1359835X13002832

[20] 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, 2014, 108, 234-242.

http://www.sciencedirect.com/science/article/pii/S0263822313004820

[19] Jian Xiong*, Bing Wang, Li Ma*, Jim Papadopoulos, Ashkan Vaziri, Linzhi Wu. Three-dimensional Composite Lattice Structures Fabricated by Electrical Discharge Machining. Experimental Mechanics, 2014, 54, 405-412.

http://link.springer.com/article/10.1007%2Fs11340-013-9801-y

[18] 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: Engineering, 2014, 62, 73-87.

http://www.sciencedirect.com/science/article/pii/S1359836814000894


2013

[17] 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, 2013, 106, 570-580.

http://www.sciencedirect.com/science/article/pii/S0263822313003383

[16] Bing Wang, Jian Xiong, Xiaojun Wang, Li Ma, Guoqi Zhang, Linzhi Wu, Jicai Feng. Energy absorption efficiency of carbon fiber reinforced polymer laminates under high velocity impact. Materials and Design, 2013, 50: 140-148.

http://www.sciencedirect.com/science/article/pii/S0261306913000691

[15] 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, 2013, 90: 1230-1235.

http://www.sciencedirect.com/science/article/pii/S0263822313000494

[14]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, 2013, 105: 188-198.

http://www.sciencedirect.com/science/article/pii/S0263822313002262


2012

[13] 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, 2012, 60(4): 1455-1466.

http://www.sciencedirect.com/science/article/pii/S1359645411008184

[12] 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, 2012, 60(13-14): 5322-5334.

http://www.sciencedirect.com/science/article/pii/S1359645412003655

[11] Jian Xiong*, Ashkan Vaziri, Li Ma, Jim Papadopoulos, Linzhi Wu*. Compression and Impact Testing of Two Layer Composite Pyramidal-core Sandwich Panels. Composite Structures, 2012, 94(2): 793-801.

http://www.sciencedirect.com/science/article/pii/S026382231100362X

[10] 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, 2012, 42(1):1-27. (中文核心约稿)

http://d.wanfangdata.com.cn/periodical_lxjz201201006.aspx

[9] 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, 2012, 34(4): 8-18. (中文核心约稿)

http://kxrc.cnki.net/kcms/detail/detail.aspx?filename=LXYS201204003&dbcode=CJFQ&dbname=CJFDTEMP


2011

[8] 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: Engineering, 2011, 42(4): 938-945.

http://www.sciencedirect.com/science/article/pii/S1359836811000229

[7] 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, 2011, 32(2): 592-597.

http://www.sciencedirect.com/science/article/pii/S0261306910004917

[6] Li Ma, Jian Xiong, Ming Li, Linzhi Wu. Mechanical Response and Failure Mechanism of Fiber Reinforced Composite Truss Core Sandwich Structures[C]. 3rd International Cofenerce on Heterogeneous Material Mechanics (ICHMM-2011), Chong Ming Island, China, May 22-26, 2011 (EI收录,EI 收录号为20124015500061)

[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[J]. 固体力学学报, 2011, 32(S1): 8-13. (EI源期刊)

http://www.cqvip.com/qk/95077x/2011s1/1003566236.html

[4] Ming Li, Linzhi Wu, Li Ma, Jian Xiong, Zhenxi Guan. Torsion of Carbon Fiber Composite Pyramidal Core Sandwich Plates[J]. Composite Structures, 2011, 93(9): 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[J]. Composites Part B: Engineering, 2011, 4(7)2: 1860-1866.

http://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, 2010, 92(11): 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[J]. 工程力学, 2010, 27(12): 34-39. (EI收录,EI收录号为20110313592213)

http://www.cnki.com.cn/Article/CJFDTotal-GCLX201012008.htm*


  会议论文 (Conference Publications/Presentations)

[14] Jian Xiong, H.-J.Christ. Micro-structural and mechanical characterization of cellular sandwich architectures in the mammal skull. Klausurtagung 2015, 30th September to 2nd October, Bonn, Germany. (German+English Oral speaking)

[13]Jian Xiong et al (2015). Fabrication and axial compressive behavior of composite sandwich cylindrical shells with pyramidal lattice truss. 20th International Conference on Composite Materials (ICCM 20), 19th -24th July, Copenhagen, Denmark. (English Oral speaking)

[12]熊健 (2014). 超轻三维多级点阵结构力学性能及失效机制研究[C]. 2014固体力学大会,四川成都,中国,10月10-12. (口头报告, Chinese Oral speaking)

[11] Jian Xiong et al (2013). Cellular Composite Materials. Klausurtagung-Siegen University, October 9 -11 , Attendorn, Germany. (English Oral speaking)

[10]熊健 (2013). 超轻复合材料点阵结构力学行为研究[C]. 2013复合材料力学研讨会,重庆,中国,5月13-15. (口头报告, Chinese Oral speaking)

[9] Jian Xiong et al (2012). Low Density Carbon Fiber Composite Pyramidal Truss Cores: Manufacturing, Experiments, Theory[C]. ASME 2012 International Mechanical Engineering Congress and Exposition, Houston, U.S.A, November 9-15. (English Oral speaking)

[8] Jian Xiong et al (2012). Mechanical Properties and Failure Modes of Carbon Fiber Composite Pyramidal Lattice Structures [C]. 23rd International Congress of Theoretical and Applied Mechanics (ICTAM2012), Beijing, China, August 19-24. (English Oral speaking)

[7] Jian Xiong et al (2011). 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, June 28-30. (English Oral speaking)

[6] Jian Xiong et al (2011). Quasi-static Compressive and Low Velocity Impact Response of Multilayer Carbon Fiber Sandwich Panels with Pyramidal Truss Structures[C]. 5th International Conference on Advanced Computational Engineering and Experimenting (ACE-X 2011), Algarve, Portugal, July 03-06. (English Oral speaking)

[5] Jian Xiong et al (2011). Carbon Fiber Composite Sandwich Panels with Pyramidal Truss-like Cores[C]. New England Workshop on the Mechanics of Materials and Structures. Boston, U.S.A, October 1. (Poster)

[4] Jian Xiong et al (2011). Fabrication and Mechanical Behaviors of Carbon Fiber Composite Sandwich Panels with Pyramidal Truss-like Cores[C]. 12th Annual Research and Industrial Collaboration Conference. Boston, U.S.A. October 13-14. (Poster)

[3] 熊健 (2010). 碳纤维复合材料点阵夹芯结构力学性能研究[C]. 2010全国固体力学学术会议, 武汉, 中国, 11月11-14. (口头报告, Chinese Oral speaking)

[2] Jian Xiong et al (2010). Mechanical Behavior of Low Density Carbon Fiber Composite Pyramidal Truss Structures[C]. International Workshop between Harbin Univ. of Tech. and Hanyang Univ. Chemical Eng. & Materials Sci. Eng. Seoul, South Korea, March 14-17. (Poster)

[1] 熊健 (2009). 铝硅合金空心圆管夹芯结构基本力学性能分析[C]. 中国力学学会学术大会, 郑州, 中国, 8月24-26. (口头报告, Chinese Oral speaking)

  发明专利(Patents)

已授权的发明专利:

[1] 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,ZL2009100733073[P]. 2010-05-19.

[2] 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[P]. 2010-05-19.

[3] 吴林志,熊健,马力,殷莎,王明亮. 一种轻质点阵夹芯板及采用激光切孔制备该板的方法: 中国, ZL201010281190.0[P]. 2011-02-09.

[4] 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[P]. 2012-02-16.

[5] 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[P]. 2012-12-12.

[6] 马力,熊健,吴林志,齐学飞,王孟孟. 纤维复合材料点阵夹芯板及制备该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[P]. 2012-02-09.

[7] 吴林志,熊健,马力,赵望安,齐学飞. 一种轻质点阵夹芯板及采用线切割打孔制备该板的方法: 中国,ZL201010281933.4[P]. 2013-02-09.

[8] 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[P]. 2013-02-23.

[9] 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[P]. 2013-06-05.

[10] 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[P]. 2013-06-05.

[11] 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,ZL2015101548910, 2017-04-12.

[12] 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,ZL2015101307685, 2017-03-24.

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[1] Xiong, J., Wu, L.Z., Ma, L., Wang, B. (2010): Mould for fabricating carbon fiber composite pyramidal truss cores structures. Chinese Patent (Patent No ZL2009100733073).

[2] Wu, L.Z., Xiong, J., Ma, L., Liu, J.Y. (2010): Mould for fabricating carbon fiber composite egg truss cores structures. Chinese Patent (Patent No ZL200910073306).

[3] Xiong, J., Ma, L., Wu, L.Z., Wang, Z.Y., Pan, S.D. (2011): The Method for fabricating carbon fiber composite sandwich panels with lattice truss cores using machine drilling. Chinese Patent (Patent No ZL201010282030.8).

[4] Wu, L.Z., Xiong, J., Ma, L., Yin, S., Wang, M.L. (2011): The Method for fabricating carbon fiber composite sandwich panels with lattice truss cores using laser beam cutting. Chinese Patent (Patent No ZL201010281190.0).

[5] Ma, L., Xiong, J., Wu, L.Z., Qi, X.F., Wang, M.M. (2011): The Mould and Method for fabricating carbon fiber composite sandwich panels with truss cores. Chinese Patent (Patent No ZL201010276964.0).

[6] Xiong, J., Ma, L., Wu, L.Z., Wang, Z.Y., Wang, M.L. (2011): The Method for fabricating carbon fiber composite sandwich panels with lattice truss cores using electrical discharge machining. Chinese Patent (Patent No ZL201010280811.3).

[7] Wu, L.Z., Xiong, J., Ma, L., Zhao, W.A., Qi, X.F. (2011): The Method for fabricating carbon fiber composite sandwich panels with lattice truss cores using wire electrode cutting. Chinese Patent (Patent No ZL201010281933.4).

[8] Wu, L.Z., Xiong, J., Pan, S.D., Peng, L., Ma, L. (2011): The Method for fabricating carbon fiber composite sandwich panels with lattice truss cores using fiber woven presoak cloth. Chinese Patent (Patent No ZL201010522716.X).

[9] Xiong, J., Ma, L., Wu, L.Z., Liu, J.Y., Zhuo, Z.G. (2011): The Method for fabricating carbon fiber composite sandwich panels with pyramidal grid cores. Chinese Patent (Patent No ZL201010266377.3).

[10] Xiong, J., Ma, L., Wu, L.Z., Liu, J.Y., Zhuo, Z.G. (2011): The Method for fabricating carbon fiber composite sandwich panels with pyramidal truss cores using fiber weave cloth. Chinese Patent (Patent No ZL201010276965.5).

[11] Wu, L.Z., Xiong, J., Ma, L., Yang, J.S., Peng, L.: The Method for fabricating carbon fiber composite cylindrical shells with lattice truss cores. Submitted as: Chinese Patent (Application No 201110231438.7, application date 02. 10. 2011).

[12] Wu, L.Z., Xiong, J., Ma. L., Xiong, G., Liu, J.Y. The Method for fabricating carbon fiber composite sandwich panels with improved pyramidal truss cores. Submitted as: Chinese Patent (Application No 201110231438.1, application date 02.10.2011).

[13] Yin, S., Ma, L., Wu, L.Z., Xiong, J., Zhang, W.J. The Method for fabricating carbon fiber composite sandwich panels with hollow pyramidal truss cores. Submitted as: Chinese Patent (Application No 201010221079.2, application date 02.10.2010)

  Typical Journals Links

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

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