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哈尔滨工业大学2021年博士研究生导师信息:马力

2021-03-03 14:05:00来源:哈尔滨工业大学

  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:马力。

  点击查看:全国各院校2021博士研究生招生简章汇总 

  Basic Information/基本信息

Dr. Li MA
Professor of Engineering Mechanics
Center for Composite Materials
Harbin Institute of Technology
P.O. Box 3011, Science Park of HIT
No.2 Yi-Kuang Street, Harbin 150080, China
Tel.:+86-451-86402739
E-Mail: mali@hit.edu.cn

ResearchID:http://www.researcherid.com/rid/B-6567-2008
ORCID:0000-0002-7597-9159

马力

哈尔滨工业大学 航天学院 复合材料与结构研究所 教授,博士生导师。

  Honoes/荣誉称号

2012年 国家自然科学基金委优秀青年基金

2008年 教育部新世纪优秀人才

2005年 哈尔滨工业大学优秀博士学位论文

  学术兼职

中国力学学会 第十届理事会 理事 (2014.11~)

中国力学学会 青年工作委员会 委员 (2015~)

中国力学学会 第九届固体力学专业委员会智能材料与结构专业组组员 (2015.11~)

黑龙江省力学学会 第七届理事会 理事 (2013.12~)

应用数学和力学 编委 (2013.07~)

  教育经历

2000年9月-2004年4月,就读于哈尔滨工业大学航天学院复合材料研究所,获工程力学工学博士学位

1998年9月至2000年7月,就读于哈尔滨工业大学航天学院复合材料研究所,获材料学工学硕士学位

1994年9月至1998年7月,就读于哈尔滨工业大学航天学院航天工程与力学系,获工学学士学位

  工作经历

时间工作经历
2011年12月至今哈尔滨工业大学复合材料与结构研究所 教授
2009年4月至今哈尔滨工业大学工程力学学科 博士生导师
2005年12月至2011年12月哈尔滨工业大学复合材料与结构研究所 副教授
2006年1月至2006年7月法国巴黎13大学LPMTM实验室(LPMTM, Université Paris 13, France) 博士后
2004年4月至2005年12月哈尔滨工业大学复合材料与结构研究所 讲师
2004年4月至2005年12月哈尔滨工程大学船舶工程学院 博士后
2003年10月至2004年4月哈尔滨工业大学复合材料研究所 助教

  概述/Overvier

致力于先进轻质复合材料及结构的设计、制备和性能研究,主要研究兴趣包括: 1)轻质复合材料点阵结构的设计、制备及其力学性能表征;2)机械超材料及结构的设计、制备及其性能表征;3)多功能复合材料及结构;4)飞行器复合材料结构设计、性能分析及工程应用等。

Welcome to the laboratory of Lightweight Materials and Structures, Center for Composite Materials, Harbin Institute of Technology. In our research, we combine theoretical, computational and experimental method to gain insight into the mechanical behaviors of advanced lightweight composite materials and structures. Our current interests are: 1) Design, manufacture and properties of lightweight composite lattice structures (and/or architected materials/structures, hierarchical structures) and its applications; 2) Mechanical metamaterials (or metastructures); 3)Multifunctional materials and structures; 4) Structural design, characteristics and application of composite materials and structures.

  科研项目/Research Project

  1. 国家自然科学基金面上项目,12072092,具有非正参数的纤维增强复合材料多孔结构设计及其性能研究,2021/12-2024/12.

  2. 国家自然科学基金面上项目,11672085,复合材料三维有序多孔负泊松比结构设计制备及性能表征与评价,2017/01-2020/12.

  3. 国家自然科学基金优秀青年基金项目,11222216,轻质多功能复合材料及其结构力学,2013/01-2015/12.

  4. 国家自然科学基金面上项目,11172080,阻尼复合材料点阵结构的设计制备及其性能研究,2012/01-2015/12.

  5. 国家自然科学基金面上项目,10872059,复合材料三维点阵夹芯结构的制备及其力学性能研究,2009/01-2011/12.

  6. 国家自然科学基金青年基金项目,10502017,新型功能梯度材料的动态断裂分析及其损伤失效模拟,2006/01-2008/12.

  奖项成果

奖项名称
先进梯度功能材料的断裂力学研究
获奖时间
2017.12
完成人
吴林志、周振功、果立成、马力
所获奖项
国家自然科学二等奖
奖项名称
超轻复合材料夹芯结构及其力学性能
获奖时间
2016.08
完成人
吴林志,马力,熊健,王兵,泮世东
所获奖项
黑龙江省科学技术奖自然科学一等奖
奖项名称
多功能复合材料及结构的断裂行为研究
获奖时间
2007.01
完成人
吴林志,马力,果立成,周振功,陈建
所获奖项
教育部高等学校科学技术奖自然科学一等奖

  博士生 / Ph.D. Student

王雨舟 (WANG Yu-Zhou):2019级博士生,研究方向:有序多孔结构声学性能

陈云龙 (CHEN Yun-Long):2018级博士生,研究方向:复合材料结构阻尼性能

郭孟甫 (GUO Meng-Fu):2018级博士生,研究方向:复合材料结构冲击性能

郭晓菲 (GUO Xiao-Fei):2017级博士生,研究方向:机械超材料及结构 (荷兰阿姆斯特丹大学联合培养,Joint PhD student in Institute of Physics, Universiteit van Amsterdam, with Prof. Corentin Coulais, 2019.11~2021.11)

杨 航 (YANG Hang):2016级博士生,研究方向:新型缓冲吸能结构

亓 歌 (QI Ge):2015级博士生,研究方向:复合材料夹芯结构连接性能(德国亚琛工业大学联合培养,Joint PhD student in Institute of Structural Mechanics and Lightweight Design, RWTH Aachen University, with Prof. Kai-Uwe Schroeder, 2018.10~2019.10)

  硕士生 / Master Student

吴炳洋 (WU Bing-Yang):2020级硕士生,研究方向:待定

季东哲 (JI Dong-Zhe):2020级硕士生,研究方向:待定

周益民 (ZHOU Yi-Min):2019级硕士生,研究方向:可控热膨胀多孔结构设计及性能表征

张荣铄 (ZHANG Rong-Shuo):2019级硕士生,研究方向:复合材料夹芯结构连接性能

李明 (LI Ming):2019级硕士生,研究方向:可控热膨胀多孔结构设计及性能表征

  本科生 / Undergraduate Student

  毕业学生

博士毕业生(含副导师)

王东炜 (WANG Dong-Wei):入学时间:2014年9月,毕业时间:2020年7月,学位:工学博士。学位论文:轻质点阵夹芯结构的声学性能研究。毕业去向:北京理工大学宇航学院博士后(北京) (比利时鲁汶大学联合培养, Joint PhD student in Department of Physics and Astronomy, KU Leuven, with Prof. Christ Glorieux, 2017.10~2018.10)

吴倩倩 (WU Qian-Qian):入学时间:2015年9月,毕业时间:2019年7月,学位:工学博士。学位论文:头盖骨泡沫多孔组织结构及力学行为研究。毕业去向:哈尔滨工业大学复合材料与结构研究所 (哈尔滨)(加拿大麦吉尔大学联合培养, Joint PhD student in Department of Mechanical Engineering, McGill University, with Prof. Damiano Pasini, 2018.01-2019.01) 哈尔滨工业大学第二十二届优秀博士学位论文获得者(2020.7.16)

王信涛 (WANG Xin-Tao):入学时间:2013年3月,毕业时间:2018年7月,学位:工学博士。学位论文:三维有序负泊松比结构的设计、制备及力学性能表征。毕业去向:哈尔滨工程大学航天与建筑工程学院 (哈尔滨)

杨金水 (YANG Jin-Shui):入学时间:2012年9月,毕业时间:2017年3月,学位:工学博士。学位论文: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:哈尔滨工程大学航天与建筑工程学院(哈尔滨)(德国亚琛工业大学联合培养, Joint PhD student in Institute of Structural Mechanics and Lightweight Design, RWTH Aachen University, with Prof. Kai-Uwe Schroeder, 2015.09~2016.09) (2018年度黑龙江省力学学会优秀博士论文) (2018年度中国复合材料学会优秀博士学位论文提名奖)

王志勇(副导师):入学时间:2008年9月,毕业时间:2013年5月,学位:工学博士。学位论文:颗粒增强复合材料断裂行为研究。毕业去向:太原理工大学力学学院 (太原)

熊 健(副导师):入学时间:2008年3月,毕业时间:2012年12月,学位:工学博士。学位论文:轻质复合材料点阵结构力学行为研究。毕业去向:哈尔滨工业大学复合材料与结构研究所 (哈尔滨)

硕士毕业生

王玉豪 (WANG Yu-Hao):入学时间: 2018年9月, 毕业时间: 2020年7月, 学位: 工学硕士, 学位论文: 可调控热膨胀结构设计及其表征. 毕业去向: 蓝箭航天(北京)

陈鼎铭 (CHEN Ding-Ming):入学时间: 2018年9月, 毕业时间: 2020年7月, 学位: 工学硕士, 学位论文: 三维可控热膨胀有序多孔结构设计及其性能表征. 毕业去向: 航天一院一部攻读博士学位(北京)

温治辉:入学时间: 2017年9月, 毕业时间: 2019年7月, 学位: 工学硕士, 学位论文: 轻质有序面心立方夹芯结构声学特性研究. 毕业去向: 同济大学攻读博士学位(上海)(优秀毕业生金奖)

陈云龙:入学时间: 2016年9月, 毕业时间: 2018年7月, 学位: 工程硕士, 学位论文: 复合材料有序多孔结构阻尼机理及振动控制. 毕业去向: 哈尔滨工业大学攻读博士学位

王舒杨:入学时间: 2016年9月, 毕业时间: 2018年7月, 学位: 工学硕士, 学位论文: 可调控热膨胀结构设计及其性能表征. 毕业去向: 上海卫星工程研究所(上海)

马国林:入学时间: 2015年9月, 毕业时间: 2017年7月, 学位: 工学硕士, 学位论文: 复合材料负泊松比结构振动和阻尼性能研究. 毕业去向: 天津光电集团有限公司(天津)

李晓文:入学时间: 2014年9月, 毕业时间: 2016年7月, 学位: 工学硕士, 学位论文: 零/负多孔热膨胀结构设计及其性能表征. 毕业去向: 南方科技大学攻读博士学位

亓 歌:入学时间: 2013年9月, 毕业时间: 2015年7月, 学位: 工学硕士, 学位论文: 轻质复合材料点阵夹芯板的连接设计及性能表征. 毕业去向: 哈尔滨工业大学攻读博士学位

吴倩倩:入学时间: 2013年9月, 毕业时间: 2015年7月, 学位: 工学硕士, 学位论文: 新型复合材料金字塔点阵结构的制备及力学性能研究. 毕业去向: 哈尔滨工业大学攻读博士学位

史 齐:入学时间: 2012年9月, 毕业时间: 2014年7月, 学位: 工程硕士, 学位论文: 负泊松比蜂窝夹芯结构性能表征及优化设计. 毕业去向: 哈尔滨工业大学攻读博士学位

蔡 振:入学时间: 2011年9月, 毕业时间: 2013年7月, 学位: 工学硕士, 学位论文: 飞行器热结构设计及热力耦合响应分析. 毕业去向: 中航沈飞民用飞机有限责任公司(沈阳)

杨金水:入学时间: 2010年9月, 毕业时间: 2012年7月, 学位: 工学硕士, 学位论文: 复合材料点阵夹芯结构阻尼特性的研究. 毕业去向: 哈尔滨工业大学攻读博士学位

熊 刚:入学时间: 2010年9月, 毕业时间: 2012年7月, 学位: 工学硕士, 学位论文: 点阵夹芯结构吸波隐身性能研究. 毕业去向: 中船重工725所洛阳双瑞风电叶片有限公司(洛阳)

王言言:入学时间: 2009年9月, 毕业时间: 2011年7月, 学位: 工学硕士, 学位论文: 颗粒增强复合材料三维断裂行为的数值模拟. 毕业去向: 徐州重工集团(徐州)

刘 阔:入学时间: 2008年9月, 毕业时间: 2010年7月, 学位: 工学硕士, 学位论文: 非均匀材料动态断裂行为的数值模拟. 毕业去向: 东方电机有限公司(杭州)

王 刚:入学时间: 2007年9月, 毕业时间: 2009年7月, 学位: 工学硕士, 学位论文: 推进剂管理用金属膜片挤压变形有限元分析. 毕业去向: 中国核电工程有限公司河北分公司(石家庄)

王志勇:入学时间:2006年9月,毕业时间:2008年7月,学位:工学硕士。学位论文:非均匀材料中准静态裂纹扩展问题的数值模拟,哈尔滨工业大学优秀毕业生金奖。毕业去向:哈尔滨工业大学攻读博士学位,太原理工大学力学学院 (太原)

本科毕业生

王雨舟:入学时间:2015年9月,毕业时间:2019年7月,毕业论文题目:波纹夹芯结构传声性能研究,毕业去向:哈尔滨工业大学复合材料与结构研究所直博

陈鼎铭:入学时间:2014年9月,毕业时间:2018年7月,毕业论文题目:可调控热膨胀结构设计及其性能评价,毕业去向:哈尔滨工业大学复合材料与结构研究所读研

郭晓菲:入学时间:2013年9月,毕业时间:2017年7月,毕业论文题目:金属网折叠结构设计及其吸能性能研究,毕业去向:哈尔滨工业大学复合材料与结构研究所读博

王舒杨:入学时间:2012年9月,毕业时间:2016年7月,毕业论文题目:高导热低膨胀点阵结构设计及性能研究,毕业去向:哈尔滨工业大学复合材料与结构研究所读研

赵天骄:入学时间:2010年9月,毕业时间:2014年7月,毕业论文题目:三维负泊松比结构设计及其力学性能研究,毕业去向:中国科学院长春光学精密机械与物理研究所读研

陆宇阳:入学时间:2009年9月,毕业时间:2013年7月,毕业论文题目:超轻周期型桁架夹芯结构失效机制基础理论研究,毕业去向:中国科技大学读研 (哈尔滨工业大学优秀毕业生)

闫润泽:入学时间:2007年9月,毕业时间:2011年7月,毕业论文题目:阻尼点阵复合材料的动态力学性能,毕业去向:哈尔滨工业大学读研

姜立洲:入学时间:2006年9月,毕业时间:2010年7月,毕业论文题目:复合材料点阵夹芯结构振动特性研究,毕业去向:中复神鹰碳纤维有限公司(江苏 连云港)

胡 滨:入学时间:2006年9月,毕业时间:2010年7月,毕业论文题目:复合材料四面体点阵夹芯材料结构优化设计,毕业去向:哈尔滨工程大学读研

石明奇:入学时间:2005年9月,毕业时间:2009年7月,毕业论文题目:复合材料层板层间开裂过程的有限元分析,毕业去向:

张建勋:入学时间:2004年9月,毕业时间:2008年7月,毕业论文题目:全复合材料点阵夹芯结构的基本力学性能分析,毕业去向:西安交通大学读研

李 晖:入学时间:2003年9月,毕业时间:2007年7月,毕业论文题目:纤维柱增强复合材料夹芯结构的基本力学性能,毕业去向:

李东峰:入学时间:2002年9月,毕业时间:2006年7月,毕业论文题目:功能梯度结构的振动分析,毕业去向:

  出版物

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
出版时间,完成时间
2015-11-01
出版社
科学出版社
出版物名称
Mechanics of Functionally Graded Materials and Structures
作者
马力 (参编)
出版时间,完成时间
2012-12-01
出版社
Nova Science Publishers, Inc.

  期刊论文

Year 2021

145. Yun-Long Chen, Dong-Wei Wang, Li Ma*. Vibration and damping performance of carbon fiber-reinforced polymer 3D double-arrow-head auxetic metamaterials. Journal of Materials Science. 2021, 56(2):1443-1460.

Year 2020

144. Ge Qi, Yun-Long Chen, Philip Rauschen, Kai-Uwe Schroeder, Li Ma*. Characteristics of an improved boundary insert for sandwich panels with lattice truss cores. Aerospace Science and Technology. 2020, 107: 106278.

143. Hang Yang, Li Ma*. 1D and 2D snapping mechanical metamaterials with cylindrical topology. International Journal of Solids and Structures. 2020, 204-205: 220-232.

142. Shao-Wei Zhu, Ji-Qiang Hu, Xiao-Jun Tan, Bing Wang*, Shuai Chen, Li Ma. Mechanics of sandwich panels with a buckling-dominated lattice core: The effects of the initial rod curvatures. Composite Structures. 2020, 251: 112669.

141. Li-Jia Feng, Guo-Cai Yu*, Li Ma, Lin-Zhi Wu*, A-Man Zhang. Enhanced design of hourglass truss sandwich structures for compressive resistance. Science China-Technological Science. 2020, 63(12):2717-2728.

140. Meng-Fu Guo, Hang Yang, Li Ma*. Design and analysis of 2D double-U auxetic honeycombs. Thin-Walled Structures. 2020. 155:106915.

139. Hang Yang, Li Ma*. Design and characterization of axisymmetric auxetic metamaterials. Composite Structures. 2020. 249:112560.

138. Meng-Fu Guo, Hang Yang, Li Ma*. Design and characterization of 3D AuxHex lattice structures. International Journal of Mechanical Science. 2020, 181:105700.

137. Xiao-Fei Guo, Li Ma*. One-way transmission in topological mechanical metamaterials based on self-locking. International Journal of Mechanical Science. 2020, 175:105555.

136. Ge Qi, Yun-Long Chen, Philip Richert, Li Ma*, Kai-Uwe Schroeder. A hybrid joining insert for sandwich panels with pyramidal lattice truss cores. Composite Structures. 2020, 241:112123.

135. Jin-Shui Yang*, Wei-Ming Zhang, Fang Yang, Si-Yuan Chen, Ruediger Schmidt, Kai-Uwe Schroeder, Li Ma, Lin-Zhi Wu. Low velocity impact behavior of carbon fibre composite curved corrugated sandwich shells. Composite Structures. 2020, 238:112027.

134. Jin-Shui Yang*, Zhi-Da Liu, Ruediger Schmidt, Kai-Uwe Schroeder, Li Ma, Lin-Zhi Wu*. Vibration-based damage diagnosis of composite sandwich panels with bi-directional corrugated lattice cores. Composites Part A-Applied Science and Manufacturing. 2020, 131:105781.

133. Hang Yang, Li Ma*. 1D to 3D multi-stable architected materials with zero Poisson’s ratio and controllable thermal expansion. Materials and Design. 2020, 188:108430.

132. Dong-Wei Wang, Li Ma*, Xin-Tao Wang, Ge Qi. Sound transmission loss of sandwich plate with pyramidal truss Cores. Journal of Sandwich Structures and Materials. 2020, 22(3):551-571.

131. Shao-Wei Zhu, Xiao-Jun Tan, Shuai Chen, Bing Wang*, Li Ma, Lin-Zhi Wu. Quasi-All-Directional Negative Stiffness Metamaterials Based on Negative Rotation Stiffness Elements. Physica Status Solidi B-Basic Solid State Physics. 2020, 257(6):1900538.

130. Hang Yang, Li Ma*. Angle-dependent transitions between structural bistability and multistability. Advanced Engineering Materials. 2020, 22(5):1900871.

129. Dong-Wei Wang, Zhi-Hui Wen, Christ Gloieux, Li Ma*. Sound absorption of the face-centered cubic sandwich structure with micro-perforations. Materials and Design. 2020, 186:108344.

128. Yun-Long Chen, Xin-Tao Wang*, Li Ma*. Damping mechanisms of CFRP three-dimensional double-arrow-head auxetic metamaterials. Polymer Testing. 2020, 81:106189.

Year 2019

127. Hang Yang, Bing Wang, Li Ma*. Mechanical properties of 3D double-U auxetic structures. International Journal of Solids and Structures. 2019. 180-181:13-29.

126. Dong-Wei Wang, Li Ma*, Zhi-Hui Wen. Sound transmission through a sandwich structure with two-layered pyramidal core and cavity absorption. Journal of Sound and Vibration. 2019, 459:114853.

125. Xiao-Fei Guo, Li Ma*. Periodic topological lattice with different indentation hardness on opposite surfaces. Materials and Design. 2019, 180: 107953.

124. Shao-Wei Zhu, Xiao-Jun Tan, Bing Wang*, Shuai Chen, Ji-Qiang Hu, Li Ma, Lin-Zhi Wu. Bio-inspired multistable metamaterials with reusable large deformation and ultra-high mechanical performance. Extreme Mechanics Letters. 2019, 32:100548.

123. Jin-Shui Yang, De-Lin Li, Li Ma*, Shun-Qi Zhang, Kai-Uwe Schroeder, Rüdiger Schmidt. Numerical static and dynamic analyses of improved equivalent models for corrugated sandwich structures. Mechanics of Advanced Materials and Structures. 2019, 26(18): 1556-1567.

122. Ge Qi, Bin Ji, Li Ma*. Mechanical Response of Pyramidal Lattice Truss Core Sandwich Structures by Additive Manufacturing. Mechanics of Advanced Materials and Structures. 2019, 26(15):1298-1306.

121. Ge Qi, Li Ma*, Shu-Yang Wang. Modeling and reliability of insert in composite pyramidal lattice truss core sandwich panels. Composite Structures. 2019, 221:110888.

120. Dong-Wei Wang, Li Ma*, Xin-Tao Wang, Zhi-Hui Wen, Christ Glorieux. Sound transmission loss of laminated composite sandwich structures with pyramidal truss cores. Composite Structures. 2019. 220:19-30.

119. Xiao-Dong Li, Lin-Zhi Wu*, Li Ma, Xiang-Qiao Yan. Compression and shear response of carbon fiber composite sandwich panels with pyramidal truss cores after thermal exposure. Mechanics of Advanced Materials and Structures. 2019, 26(10):866-877.

118. Hang Yang, Bing Wang, Li Ma*. Designing hierarchical metamaterials by topology analysis with tailored Poisson’s ratio and Young’s modulus. Composite Structures. 2019, 214:359-378.

117. Qian-Qian Wu, Ashkan Vaziri, Mohamad Eydani Asl. Ranajay Ghosh, Ying Gao, Xing-Yu Wei, Li Ma, Jian Xiong*, Lin-Zhi Wu. Lattice materials with pyramidal hierarchy: Systematic analysis and three dimensional failure mechanism maps. Journal of the Mechanics and Physics of Solids. 2019, 125:112-144.

116. Hang Yang, Li Ma*. Multi-stable mechanical metamaterials by elastic buckling instability. Journal of Materials Science. 2018, 54(4): 3509-3526.

115. 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.

Year 2018

114. Li Ma*, Yun-Long Chen, Jin-Shui Yang*, Xin-Tao Wang, Guo-Lin Ma, Rüdiger Schmidt, Kai-Uwe Schroeder. Modal characteristics and damping enhancement of carbon fiber composite auxetic double-arrow corrugated sandwich panels. Composite Structures. 2018, 203:539-550.

113. Xin-Tao Wang, Yun-Long Chen, Li Ma*. The manufacture and characterization of composite three-dimensional re-entrant auxetic cellular structures made from carbon fiber reinforced polymer. Journal of Composite Materials. 2018, 52(23): 3265-3273.

112. Xin-Tao Wang, Bing Wang, Zhi-Hui Wen, Li Ma*. Fabrication and mechanical properties of CFRP composite three-dimensional double-arrow-head auxetic structures. Composites Science and Technology. 2018. 164, 92-102.

111. Hang Yang, Li Ma*. Multi-stable mechanical metamaterials with shape-reconfiguration and zero Poisson's ratio. Materials and Design. 2018, 152: 181-190.

110. Jin-Shui Yang, Li Ma*, Kai-Uwe Schroeder, Yun-Long Chen, Shuang Li, Lin-Zhi Wu, Rüdiger Schmidt. Experimental and numerical study on the modal characteristics of hybrid carbon fiber composite foam filled corrugated sandwich cylindrical panels. Polymer Testing. 2018, 68:8-18.

109. Qian-Qian Wu, Li Ma, Qiu-Nan Liu, Li-Na Feng, Zhen-Yu Wang, Arne Ohrndorf, Hans-Juergen 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.

108. Xiao-Dong Li, Jian Xiong*, Li Ma, Lin-Zhi Wu*, Xiang-Qiao Yan. Effect of vacuum thermal cycling on the compression and shear performance of composite sandwich structures containing pyramidal truss cores. Composites Science and Technology. 2018, 158:67-78.

107. Ge Qi and Li Ma*. Experimental investigation of composite pyramidal truss core sandwich panels with lightweight inserts. Composite Structures. 2018, 187:336-343.

106. Shao-Wei Zhu, Li Ma, Bing Wang*, Ji-Qiang Hu, Zhen-Gong Zhou. Lattice materials composed by curved struts exhibit adjustable macroscopic stress-strain curves. Materials, Today Communications. 2018, 14:273-281.

105. Bing Wang, Ji-Qiang Hu, Yan-Qi Li, Yong-Tao Yao*, Shi-Xun Wang, Li Ma. Mechanical properties and failure behavior of the sandwich structures with carbon fiber-reinforced X-type lattice truss core. Composite Structures. 2018, 185:619-633.

104. Qian-Qian Wu, Ying Gao, Xing-Yu 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, 132:171-187.

Year 2017

103. Xin-Tao Wang, Bing Wang, Xiao-Wen Li, Li Ma*. Mechanical properties of 3D re-entrant auxetic cellular structures. International Journal of Mechanical Sciences. 2017, 131-132:396-407.

102. Jin-Shui Yang, Li Ma*. Mauricio Chaves-Vargas, Tian-Xiang Huang, Kai-Uwe Schroeder, Rüdiger Schmidt, Lin-Zhi Wu. Influence of manufacturing defects on modal properties of composite pyramidal truss-like core sandwich cylindrical panels. Composites Science and Technology. 2017, 147:89-99.

101. Jin-Ze Wang, Fu-Hong Dai*, Li Ma. A multi-scale moisture diffusion coupled with stress model for composite materials. Composite Structures. 2017, 171:345-359.

100. 马力*,杨金水. 新型轻质复合材料夹芯结构振动阻尼性能研究进展. 应用数学和力学. 2017, 38(4):369-398.

99. Dong-Wei Wang Li Ma*. Sound transmission through composite sandwich plate with pyramidal truss cores. Composite Structures. 2017, 164:104-117.

98. Qian-Qian 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.

Year 2016

97. Jian Xiong*, Li-Na Feng, Ranajay Ghosh, Hua-Ping Wu, Lin-Zhi 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.

96. Qian-Qian Wu, Li Ma, Lin-Zhi Wu, Jian Xiong*. A novel strengthening method for carbon fiber composite lattice truss structures. Composite Structures. 2016, 153:585-592.

95. Xiao-Dong Li, Lin-Zhi W*u, Li Ma, Xiang-Qiao Yan. Fabrication and mechanical properties of composite pyramidal truss core sandwich panels with novel reinforced frames. Journal of Reinforced Plastics and Composites. 2016, 35(16):1260-1274.

94. Jin-Shui Yang, Li Ma*, Rüdiger Schmidt, Ge Qi, Kai-Uwe Schroeder, Jian Xiong, Lin-Zhi Wu. Hybrid lightweight composite pyramidal truss sandwich panels with high damping and stiffness efficiency. Composite Structures. 2016, 148:85-96.

93. Xin-Tao Wang, Xiao-Wen Li, Li Ma*. Interlocking assembled 3D auxetic cellular structures. Materials and Design. 2016, 99:467-476.

92. Jian Xiong*, Ashkan Vaziri, Ranajay Ghosh, Hong Hu, Li Ma, Lin-Zhi Wu. Compression behavior and energy absorption of carbon fiber reinforced composite sandwich panels made of three-dimensional honeycomb grid cores. Extreme Mechanics Letters. 2016, 7:114-120.

91. Xiao-Dong Li, Lin-Zhi Wu*, Li Ma, Xiang-Qiao Yan. Effect of temperature on the compressive behavior of carbon fiber composite pyramidal truss cores sandwich panels with reinforced frames. Theoretical and Applied Mechanics Letters. 2016, 6(2):76-80.

Year 2015

90. Jia-Yi Liu*, Wu-Feng Qiao, Jing-Xi Liu, De Xie, Zhen-Gong Zhou, Lin-Zhi Wu, Li Ma. High temperature indentation behaviors of carbon fiber composite pyramidal truss structures. Composite Structures. 2015, 131:266-272.

89. Jian Xiong*, Robert Mines, Ranajay Ghosh, Ashkan Vaziri, Li Ma, Arne Ohrndorf, Hans-Jurgen Christ, Lin-Zhi Wu. Advanced Micro-Lattice Materials. Advanced Engineering Materials. 2015, 17(9):1253-1264.

88. Jin-Shui Yang, Jian Xiong, 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.

87. Jia-Yi Liu, Wu-Feng Qiao, Jing-Xi Liu*, De Xie, Zhen-Gong Zhou, Li Ma, Lin-Zhi Wu. The compressive responses of glass fiber composite pyramidal truss cores sandwich panel at different temperatures. Composites Part A-Applied Science and Manufacturing. 2015, 73:93-100.

86. Guo-Cai Yu, Lin-Zhi Wu, Li Ma, Jian Xiong. Low velocity impact of carbon fiber aluminum laminates. Composite Structures. 2015, 119:757-766.

Year 2014

85. Jin-Shui Yang, Jian Xiong, Li Ma*, Guo-Qi Zhang, Xin-Tao Wang, Lin-Zhi Wu. Study on vibration damping of composite sandwich cylindrical shell with pyramidal truss-like cores. Composite Structures. 2014, 117: 362-372.

84. Zhi-Yong Wang, Li Ma, Hong-Jun Yu, Lin-Zhi Wu. Dynamic stress intensity factors for homogeneous and non-homogeneous materials using the interaction integral method. Engineering Fracture Mechanics. 2014, 128:8-21

83. Jia-Yi Liu*, Xiang Zhu, Tian-Yun Li, Zhen-Gong Zhou, Lin-Zhi Wu, Li Ma. Experimental study on the low velocity impact responses of all-composite pyramidal truss core sandwich panel after high temperature exposure. Composite Structures. 2014, 116(1): 670-681.

82. Jian Xiong, R. Ghosh, Li Ma, H. Ebrahimi, A.M.S. Hamouda, A. Vaziri, Lin-Zhi Wu. Bending behavior of lightweight sandwich-walled shells with pyramidal truss cores. Composite Structures. 2014, 116(1): 793-804.

81. Sha Yin, Lin-Zhi Wu*, Jin-Shui Yang, Li Ma, Steven Nutt. Damping and low-velocity impact behavior of filled composite pyramidal lattice structures. Journal of Composite Materials. 2014, 48(15): 1789-1800.

80. Jia Lou, Lin-Zhi Wu*, Li Ma, Jian Xiong, Bing Wang. Effects of local damage on vibration characteristics of composite pyramidal truss core sandwich structures. Composites Part B: Engineering. 2014, 62:73-87.

79. Bing Wang, Guo-Qi Zhang, Shi-Xun Wang, Li Ma, Li, Lin-Zhi Wu*. High velocity impact response of composite lattice core sandwich structures. Applied Composite Materials. 2014, 21(2):377-389.

78. Jia-Yi Liu*, Xiang Zhu, Zhen-Gong Zhou, Lin-Zhi Wu, Li Ma. Effects of thermal exposure on mechanical behavior of carbon fiber composite pyramidal truss core sandwich panel. Composites Part B-Engineering. 2014, 60: 82-90.

77. Jian Xiong*, Meng Zhang, Ariel Stocchi, Hong Hu, Li Ma, Lin-Zhi Wu, Zhong Zhang. Mechanical behavior of carbon fiber composite sandwich columns with three dimensional honeycomb cores under in-plane compression. Composites Part B: Engineering. 2014, 60: 350-358.

76. Jian Xiong*, Bing Wang, Li Ma*, J. Papadopoulos, A. Vaziri, Lin-Zhi Wu. Three-dimensional Composite Lattice Structures Fabricated by Electrical Discharge Machining. Experimental Mechanics. 2014, 54(3):405-412.

75. Bing Wang*, Guo-Qi Zhang, Qi-Lin He, Li Ma, Lin-Zhi Wu, Ji-Cai Feng. Mechanical behavior of carbon fiber reinforced polymer composite sandwich panel with 2-D lattice truss cores. Materials and Design. 2014, 55:591-596.

74. Guo-Qi Zhang, Bing Wang, Li Ma, Lin-Zhi Wu*, Shi-Dong Pan, Jin-Shui Yang. Energy absorption and low velocity impact response of polyrethane foam filled pyramidal lattice core sandwich panels. Composite Structures. 2014, 108:304-310.

73. Jian Xiong*, Li Ma, Ariel Stocchi, Jin-Shui Yang, Lin-Zhi Wu, Shi-Dong Pan. Bending response of carbon fiber composite sandwich beams with three dimensional honeycomb cores. Composite Structures, 2014, 108:234-242.

72. Jian Xiong*, Ranajay Ghosh, Li Ma, Ashkan Vaziri, Yu-Long Wang, Lin-Zhi Wu. Sandwich-walled cylindrical shells with lightweight metallic lattice truss cores and carbon fiber-reinforced composite face sheets. Composites Part A-Applied Science and Manufacturing. 2014, 56:226-238.

Year 2013

71. Jin-Shui Yang, Jian Xiong, Li Ma*, Bing Wang, Guo-Qi Zhang, Lin-Zhi Wu. Vibration and damping characteristics of hybrid carbon fiber composite pyramidal truss sandwich panels with viscoelastic layers. Composite Structures. 2013, 106:570-580.

70. Guo-Qi Zhang, Bing Wang, Li Ma, Jian Xiong, Jin-Shui Yang, Lin-Zhi Wu*. The residual compressive strength of impact-damaged sandwich structures with pyramidal truss cores. Composite Structures. 2013, 105:188-198.

69. Jia Lou, Bing Wang, Li Ma, Lin-Zhi Wu*. Free vibration analysis of lattice sandwich beams under several typical boundary conditions. Acta Mechanica Solida Sinca. 2013, 26(5):458-467.

68. Jia-Yi Liu, Zhen-Gong Zhou*, Lin-Zhi Wu, Li Ma. Mechanical behavior and failure mechanisms of carbon fiber composite pyramidal core sandwich panel after thermal exposure. Journal of Materials Science and Technology. 2013, 29(9): 846-854.

67. Bing Wang*, Jian Xiong, Xiao-Jun 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. 2013, 50:140-148.

66. Jia-Yi Liu, Zhen-Gong Zhou*, Lin-Zhi Wu, Li Ma, Shi-Dong Pan. High Temperature Residual Properties of Carbon Fiber Composite Sandwich Panel with Pyramidal Truss Cores. Applied Composite Materials. 2012, 20(4):537-552.

65. Guo-Qi Zhang, Bing Wang, Li Ma, Jian Xiong, Lin-Zhi Wu*. Response of sandwich structures with pyramidal truss core under the compression and impact loading. Composite Structures. 2013, 100:451-463.

Year 2012

64. Jia Lou*, Li Ma, Lin-Zhi Wu. Free vibration analysis of simply supported sandwich beams with lattice truss core. Materials Science and Engineering B-Advanced Functional Solid-State Materials. 2012, 177(19):1712-1716.

63. Jia-Yi Liu, Zhen-Gong Zhou*, Lin-Zhi Wu, Li Ma. A Study on Mechanical Behavior of the Carbon Fiber Composite Sandwich Panel with Pyramidal Truss cores at Different Temperatures. Science China-Physics, Mechanics and Astronomy. 2012, (11):1-8.

62. Jia-Yi Liu, Zhen-Gong Zhou*, Lin-Zhi Wu, Li Ma, Shi-Dong Pan. Shear response of carbon fiber composite pyramidal truss structures after high-temperature exposure. Journal of Reinforced Plastics and Composites. 2012, 31(18):1216-1225.

61. Jian Xiong, Li Ma, Ashkan Vaziri, Jin-Shui Yang, Lin-Zhi Wu*. Mechanical behavior of carbon fiber composite lattice core sandwich panels fabricated by laser cutting. ACTA Materialia. 2012, 60(13-14): 5322-5334.

60. Sha Yin, Lin-Zhi Wu*, Li Ma, Steven Nutt. Hybrid truss concept for carbon fiber composite pyramidal lattice structures. Composites Part B-Engineering. 2012, 43(4):1749-1755.

59. Guo-Qi Zhang, Li Ma, Bing Wang, Lin-Zhi Wu*. Mechanical behaviors of CFRP sandwich structures with tetrahedral lattice truss cores. Composites Part B-Engineering. 2012, 43(2):471-476.

58. Zhi-Yong Wang, Li Ma*, Lin-Zhi Wu, Hong-Jun Yu. Numerical simulation of crack growth in brittle matrix in particle reinforced composites using the XFEM technique. Acta Mechanica Solida Sinca. 2012, 25(1):9-21.

57. Jian Xiong, Li Ma, Shi-Dong Pan, Lin-Zhi 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.

56. Jian Xiong, Ashkan Vaziri, Li Ma, Jim Papadopoulos, Lin-Zhi Wu*. Compression and impact testing of two-layer composite pyramidal-core sandwich panels. Composite Structures. 2012, 94(2):793-801.

55. 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):41-67.

54. Jia Lou, Bing Wang, Li Ma, Lin-Zhi Wu*. Three-point Bending Properties of Composite Lattice Sandwich Structures with Tetrahedral Truss Cores. International Journal of Aerospace and Lightweight Structures. 2012, 2(2):1-10.

53. 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.

Year 2011

52. 王志勇, 马力*, 吴林志, 于红军. 基于扩展有限元法的颗粒增强复合材料静态及动态断裂行为研究. 固体力学学报. 2011, 32(6):566-573. 12

51. 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. 2011, 32(专辑):8-13.

50. Ming Li, Linzhi Wu, Li Ma, Jian Bing Wang, Zhengxi Guan. Structural design of pyramidal truss core sandwich beams loaded in 3-point bending. Journal of Mechanics of Materials and Structures. 2011, 6(9-10):1255-1266.

49. Sha Yin, Lin-Zhi Wu*, Li Ma, Steven Nutt. Pyramidal lattice sandwich structures with hollow composite trusses. Composite Structures. 2011, 93(12):3104-3111. 11

48. Jia-Yi Liu, Zhen-Gong Zhou*, Li Ma, Jian Xiong, Lin-Zhi Wu. Temperature effects on the strength and crushing behavior of carbon fiber composite truss sandwich cores. Composites Part B-Engineering. 2011, 42(7):1860-1866.

47. Ming Li*, Lin-Zhi Wu, Li Ma, Jian Xiong, Zheng-Xi Guan. Torsion of carbon fiber composite pyramidal core sandwich plates. Composite Structures. 2011, 93(9):2358-2367.

46. 娄佳, 马力, 吴林志*. 复合材料四面体点阵夹芯梁的自由振动分析. 固体力学学报. 2011, 32(4):339-345. 8

45. Ming Li*, Lin-Zhi Wu, Li Ma, Bing Wang, Zheng-Xi Guan. Structural response of all-composite pyramidal truss core sandwich columns in end compression. Composite Structures. 2011, 93(8):1964-1972.

44. Ming Li*, Lin-Zhi Wu, Li Ma, Bing Wang, Zheng-Xi Guan. Mechanical response of all-composite pyramidal lattice truss core sandwich structures. Journal of Materials Science and Technology. 2011, 27(6):570-576.

43. Bing Wang*, Lin-Zhi Wu, Li Ma, Ji-Cai Feng. Low-velocity impact characteristics and residual tensile strength of carbon fiber composite lattice core sandwich structures. Composites Part B-Engineering. 2011, 42(4):891-897.

42. Jian Xiong, Li Ma, Lin-Zhi Wu*, Jia-Yi Liu, Ashkan Vaziri. Mechanical behavior and failure of composite pyramidal truss core sandwich columns. Composites Part B-Engineering. 2011, 42(4):938-945.

41. 李明, 马力, 吴林志, 关正西. 含孔复合材料层合板拉伸强度研究. 哈尔滨工业大学学报. 2011,43(增刊1):1-5.

40. Jian Xiong, Li Ma, Lin-Zhi 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.

Year 2010

39. 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. 2010, 27(12):34-39.

38. Ming Li*, Lin-Zhi Wu, Zheng-Xi Guan, Shi-Xun Wang, Li Ma. Experiments and simulation of low-velocity impact characteristics on carbon fiber composite lattice core sandwich structures. Journal of Harbin Institute of Technology (New Series). 2010, 17(6):801-805.

37. Jian Xiong, Li Ma, Lin-Zhi 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.

36. Shi-Xun Wang, Lin-Zhi Wu*, Li Ma. Indentation Study of Foam Sandwich Structures Reinforced by Fiber Columns. Journal of Sandwich Structures and Materials. 2010, 12(5):621-646.

35. 吴林志,殷莎,马力. 复合材料点阵夹芯结构的耦合换热及热应力分析. 功能材料. 2010, 41(6):969-972.

34. Bing Wang, Lin-Zhi Wu*, Li Ma, Yu-Guo Sun, Shan-Yi Du. Mechanical behavior of the sandwich structures with carbon fiber-reinforced pyramidal lattice truss core. Materials and Design. 2010, 31(5): 2659-2663.

33. 王兵,吴林志,杜善义,孙雨果,马力. 碳纤维增强金字塔点阵夹芯结构的抗压缩性能. 复合材料学报. 2010, 27(1):133-138.

32. Shi-Xun Wang, Lin-Zhi Wu*, Li Ma. Low-velocity impact and residual tensile strength analysis to carbon fiber composite laminates. Materials and Design. 2010, 31(1):118-125.

31. Bing Wang*, Lin-Zhi Wu, Xin Jin, Shan-Yi Du, Yu-Guo Sun, Li Ma. Experimental investigation of 3D sandwich structure with core reinforced by composite columns. Materials and Design. 2010, 31(1):158-165.

Year 2009

30. Bing Wang, Lin-Zhi Wu*, Li Ma, Qiang Wang, Shan-Yi Du. Fabrication and testing of carbon fiber reinforced truss core sandwich panels. Journal of Materials Science and Technology. 2009,25(4):547-550.

29. Li Ma*, Lin-Zhi Wu and Lin-Ping Feng. Surface crack problem for functionally graded magnetoelectroelastic coating-homogeneous elastic substrate system under anti-plane mechanical and in-plane electric and magnetic loading. Engineering Fracture Mechanics. 2009, 76(2):269-285.

Year 2008

28. Li Ma* and Lin-Zhi Wu. Mode III crack problem in a functionally graded coating-homogenous substrate structure. Proceedings of the Institution of Mechanical Engineers Part C-Journal of Mechanical Engineering Science. 2008, 222(C3), 329-337.

Year 2007

27. Li Ma*, Jia Li, Radhi Abdelmoula and Lin-Zhi Wu. Mode III crack problem in a functionally graded magneto-electro-elastic strip. International Journal of Solids and Structures. 2007, 44(17):5518-5537.

26. 郑华勇,吴林志,马力*,王新筑. Kagome点阵夹芯板的抗冲击性能研究. 工程力学. 2007, 24(8):86-92.

25. Li Ma*, Wu Nie, Lin-Zhi Wu and Li-Cheng Guo. Scattering of anti-plane stress waves by a crack in a non-homogeneous orthotropic medium. Composite Structures. 2007, 79(2):174-179.

24. Li Ma*, Jia Li, Radhi Abdelmoula and Lin-Zhi Wu. Dynamic stress intensity factor for cracked functionally graded orthotropic medium under time-harmonic loading. European Journal of Mechanics A-Solids. 2007, 26(2):325-336.

23. Chun-Hui Xia*, Li Ma. Dynamic behavior of a finite crack in functionally graded materials subjected to plane incident time-harmonic stress wave. Composite Structures. 2007, 77(1):10-17.

Year 2006

22. 马力*,吴林志,聂武. 在反平面变形下功能梯度压电板条的应力强度因子分析. 工程力学. 2006, 23(1):47-51

Year 2005

21. Li Ma*, Wu Nie, Lin-Zhi Wu and Zhen-Gong Zhou. Scattering of the harmonic stress wave by cracks in functionally graded piezoelectric materials. Acta Mechanica Solida Sinica. 2005, 18(4):295-301.

20. Li Ma*, Lin-Zhi Wu and Li-Cheng Guo. On the moving Griffith crack in a nonhomogeneous orthotropic strip. International Journal of Fracture. 2005, 136(1-4): 187-205.

19. Li Ma*, Lin-Zhi Wu, Li-Cheng Guo and Zhen-Gong Zhou. Dynamic Behavior of a finite crack in the Functionally Graded Materials. Mechanics of Materials. 2005, 37(11):1153-1165.

18. Li Ma*, Lin-Zhi Wu, Zhen-Gong Zhou and Li-Cheng Guo. Scattering of the harmonic anti-pane shear waves by a crack in functionally graded piezoelectric materials. Composite Structures. 2005, 69(4):436-441.

17. Li Ma*, Lin-Zhi Wu, Zhen-Gong Zhou and Li-Cheng Guo Fracture analysis of a functionally graded piezoelectric strip. Composite Structures. 2005, 69(3):294-300.

16. Li-Cheng Guo*, Lin-Zhi Wu, Yu-Guo Sun, Li Ma. The transient fracture behavior for a functionally graded layered structure subjected to an in-plane impact load. Acta Mechanica Sinica. 2005, 21(3):257-266.

15. Tao Zeng*, Dai-Ning Fang, Li-Cheng Guo and Li Ma. A mechanical model of 3D braided composites with transverse and longitudinal cracks. Composite Structures. 2005, 69(1):117-125.

14. Li Ma*, Lin-Zhi Wu, Li-Cheng Guo and Zhen-Gong Zhou. On the moving Griffith crack in a non-homogeneous orthotropic medium. European Journal of Mechanics A-Solids. 2005, 24(3):393-405.

13. Tao Zeng*, Lin-Zhi Wu, Li-Cheng Guo, Li Ma. A mechanical model of 3D braided composites with internal transverse crack. Journal of Composite Materials. 2005, 39(4):301-321.

Year 2004

12. Tao Zeng*, Dai-Ning Fang, Li Ma, Li-Cheng Guo. Predicting the nonlinear response and failure of 3D braided composites. Materials Letters. 2004,58(26):3237-3241.

11. Li Ma*, Lin-Zhi Wu, Zhen-Gong Zhou, Li-Cheng Guo and Li-Ping Shi. Scattering of harmonic anti-plane shear waves by two collinear cracks in functionally graded piezoelectric materials. European Journal of Mechanics A-Solids. 2004, 23(4):633-643.

10. Li-Cheng Guo*, Lin-Zhi Wu, Tao Zeng, Li Ma. The Dynamic Fracture Behavior of a Functionally Graded Coating-Substrate System. Composite Structures. 2004, 64(3-4):433-441.

9. Li-Cheng Guo*, Lin-Zhi Wu, Li Ma, Tao Zeng. Fracture Analysis of a Functionally Graded Coating-substrate Structure with a Crack Perpendicular to the Interface - Part I: Static problem. International Journal of Fracture. 2004, 127(2):21-38.

8. Li-Cheng Guo*, Lin-Zhi Wu, Tao Zeng, Li Ma. Fracture Analysis of a Functionally Graded Coating-substrate Structure with a Crack Perpendicular to the Interface - Part II: Transient problem. International Journal of Fracture. 2004, 127(2):39-59.

7. Li-Cheng Guo*, Lin-Zhi Wu, Tao Zeng and Li Ma. Mode I crack problem for a functionally graded orthotropic strip. European Journal of Mechanics A-Solids. 2004, 23(2):219-234.

6. Li Ma*, Lin-Zhi Wu, Zhen-Gong Zhou and Tao Zeng. Crack propagating in a functionally graded strip under the plane loading. International Journal of Fracture. 2004, 126(1): 39-55.

5. Li-Cheng Guo*, Lin-Zhi Wu, Li Ma. The Interface Crack Problem under a Concentrated Load for a Functionally Graded Coating-Substrate Composite System. Composite Structures. 2004, 63(3-4):397-406.

4. Li Ma*, Lin-Zhi Wu and Zhen-Gong Zhou. Dynamic stress intensity factors around two parallel cracks in a functionally graded layer bonded to dissimilar half planes subjected to anti-plane incident time-harmonic stress wave. International Journal of Engineering Science. 2004, 42(2): 187-202.

Year 2003

3. 张雪丽,果立成,曾涛,吴林志,马力. 三维编织复合材料圆柱壳的稳定性研究. 哈尔滨工业大学学报. 2003, 35(2):222-226

Year 2002

2. Li Ma*, Lin-Zhi Wu and Li-Cheng Guo. Dynamic behavior of two collinear anti-plane shear cracks in a functionally graded layer bonded to dissimilar half planes. Mechanics Research Communications. 2002, 29(4):207-215.

Year 1999

1. Zhen-Gong Zhou* and Li Ma. Two collinear Griffith cracks subjected to anti-plane shear in infinitely long strip. Mechanics Research Communications. 1999, 26(4):437-444.

本文关键字: 哈尔滨工业大学 博士生导师 博士

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