北京航空航天大学导师教师信息介绍简介-陈玉丽

删除或更新信息，请邮件至freekaoyan#163.com(#换成@)

本站小编 Free考研考试/2020-04-24

News

当前位置: 中文主页 >> News

课题组合影-2020/01/11

共1条1/1首页上页下页尾页

当前位置: 中文主页 >> Publications Update

已发表文章列表：

2019
[54] Pan Fei, Li Yilun, Li Zhaoyu, Liu Bin , ChenYuli*. 3D Pixel Mechanical Metamaterials[J]. Advanced Materials, 2019, ,31(25).
[53] Meng Xianhong, Zhang Bowen, Li Hao, Li Fengwei, Kang Zhan, Li Ming*, ChenYuli*. A theoretical analysis on self-collapsing of nanotubes[J]. International Journal of Solids and Structures, 2019,160:51-58.
[52] Yang Weichao, Zhang Xufeng, Chen Yuli*, Fei Binjun, Yi Xiaosu. Strength analysis of bio-inspired composites reinforced by regularly and randomly staggered platelets[J]. Composite Structures, 2019,216:415-426.
[51] MaYong, Wang Guorui, Chen Yuli*, Liu Luqi, Zhang Zhong. A Mock Gas Molecules Model for Accurately Simulating Pressure Load at Micro- and Nanoscales[J]. Journal of Applied Mechanics, Transactions ASME, 2019,86(9).
[50] Yang Kuijian, Chen Yuli*, Zhang Lei, Qiao Chuan. Shape and geometry design for self-locked energy absorption systems[J]. International Journal of Mechanical Sciences, 2019,156:312-328.
[49] Zhang Mang, Chen Yuli, Chiang Fu-pen, Gouma Pelagia Irene, Wang Lifeng*. Modeling the Large Deformation and Microstructure Evolution of Nonwoven Polymer Fiber Networks[J]. Journal of Applied Mechanics. 2019, 86 (1):011010-011010-10.
[48] Pan Fei, Wang Guorui, Liu Luqi, Chen Yuli*, Zhang Zhong*, Shi Xinghua*. Bending induced interlayer shearing, rippling and kink buckling of multilayered graphene sheets[J]. Journal of the Mechanics and Physics of Solids. 2019, 122:340-363.

2018
[47] Yang Yang, Liang Jie, Pan Fei, Wang Zhen, Zhang Jianqi, Amin Kamran, Fang Jin, Zou Wenjun,Chen Yuli, Shi Xinghua* and Wei Zhixiang*. Macroscopic helical chirality and self-motion of hierarchical self-assemblies induced by enantiomeric small molecules[J]. Nature Communications. 2018, 9 (1):3808.
[46] Yang Kuijian, Qin Qinghua, Zhai Zirui, Qiao Chuan, Chen Yuli*, Yang Jialing. Dynamic response of self-locked energy absorption system under impact loadings[J]. International Journal of Impact Engineering. 2018, 122:209-227.
[45] Wang Xu, Zhai Zirui, Chen Yuli, Jiang Hanqing*. A facile, robust and versatile finite element implementation to study the time-dependent behaviors of responsive gels[J]. Extreme Mechanics Letters. 2018, 22:89-97.
[44] Wang Shengtao, Ma Yong, Pan Fei, Shao Lihua, Chen Yuli*. A mode-independent energy method in morphology prediction of graphene on substrates with nanoscale asperities[J]. International Journal of Mechanical Sciences. 2018, 146-147:355-365.
[43] Ma Yong, Wang Guorui, Chen Yuli*, Long Deng, Guan Yingchun, Liu Luqi*, Zhang Zhong*. Extended Hencky solution for the blister test of nanomembrane[J]. Extreme Mechanics Letters. 2018, 22:69-78.
[42] Liu Hao, Zhao Hongyu, Li Shuang, Hu Jianqiao, Zheng Xinran, Li Rui*, Chen Yuli*, Su Yewang*. Adhesion-Free Thin-Film-Like Curvature Sensors Integrated on Flexible and Wearable Electronics for Monitoring Bending of Joints and Various Body Gestures[J]. Advanced Materials Technologies. 2018:**.
[41] Liu Hao, Xue Riye, Hu Jianqiao, Ping Xuecheng, Wu Huaping, Huang Mingqi, Zhang Han, Guo Xu, Li Rui*, Chen Yuli*, Su Yewang*. Systematic study on the mechanical and electric behaviors of the nonbuckling interconnect design of stretchable electronics[J]. SCIENCE CHINA Physics, Mechanics & Astronomy. 2018,
[40] Ji Yu, Xing Yufeng, Zhou Fan, Li Xuequan, Chen Yuli, Shao Li-Hua*. The Mechanical Characteristics of Monolithic Nanoporous Copper and Its Composites[J]. Advanced Engineering Materials. 2018, 20 (10):**.
[39] 陈玉丽*, 马勇, 潘飞, 王升涛. 多尺度复合材料力学研究进展[J]. 固体力学学报, 2018(1).

2017
[38] Chang Tammy, Tanabe Yuji, Wojcik Charles C., Barksdale Alex C., Doshay Sage, Dong Zhenya, Liu Hao, Zhang Maoyi, Chen Yuli, Su Yewang, Lee Thomas H., Ho John S. and Fan Jonathan A.*. A General Strategy for Stretchable Microwave Antenna Systems using Serpentine Mesh Layouts[J]. Advanced Functional Materials. 2017, 27 (46):**.
[37] Zhang Maoyi, Liu Hao, Cao Peng, Chen Bin, Hu Jianqiao, Chen Yuli, Pan Bing, Fan Jonathan A., Li Rui*, Zhang Lijuan*, Su Yewang*. Strain-Limiting Substrates Based on Nonbuckling, Prestrain-Free Mechanics for Robust Stretchable Electronics[J]. Journal of Applied Mechanics. 2017, 84 (12):121010.
[36] Yang Kuijian, Chen Yuli*, Liu Shoubin, Qiao Chuan, Yang Jialing. Internally nested self-locked tube system for energy absorption[J]. Thin-Walled Structures. 2017, 119:371-384.
[35] Wang Shengtao, Chen Yuli*, Wu Jian, Yang Kuijian, Pan Fei. A mode-independent energy-based buckling analysis method and its application on substrate-supported graphene[J]. International Journal of Solids and Structures. 2017, 124 (Supplement C):73-88.
[34] Wang Shengtao, Chen Yuli*, Ma Yong, Wang Zhou, Zhang Jianyu. Size effect on interlayer shear between graphene sheets[J]. Journal of Applied Physics. 2017, 122 (7):074301.
[33] Qiao Chuan, Chen Yuli*, Wang Shengtao, Yang Kuijian, Qiu Xinming. Theoretical analysis on the collapse of dumbbell-shaped tubes[J]. International Journal of Mechanical Sciences. 2017, 123:20-33.
[32] Pan Fei, Chen Yuli*, Liu Yilun, Guo Zaoyang. Out-of-plane bending of carbon nanotube films[J]. International Journal of Solids and Structures. 2017, 106:183-199.
[31] Chen Yang, Dong Leiting, Wang Bing, Chen Yuli, Qiu Zhiping, Guo Zaoyang*. A substructure-based homogenization approach for systems with periodic microstructures of comparable sizes[J]. Composite Structures. 2017, 169:97-104.

2016
[30] Zhou Yanguang, Chen Yuli, Hu Ming*. Strong Surface Orientation Dependent Thermal Transport in Si Nanowires[J]. Scientific Reports. 2016, 6:24903.
[29] Zhang Xiaoliang, Gao Yufei, Chen Yuli, Hu Ming*. Robustly Engineering Thermal Conductivity of Bilayer Graphene by Interlayer Bonding[J]. Scientific Reports. 2016, 6:22011.
[28] Zhang Jianyu*, Zhou Longwei, Chen Yuli, Zhao Libin, Fei Binjun. A micromechanics-based degradation model for composite progressive damage analysis[J]. Journal of Composite Materials. 2016, 50 (16):2271-2287.
[27] Yang Kuijian, Chen Yuli*, Pan Fei, Wang Shengtao, Ma Yong, Liu Qijun. Buckling Behavior of Substrate Supported Graphene Sheets[J]. Materials. 2016, 9 (1):32.
[26] Pan Fei, Chen Yuli*, Qin Qinghua. Stiffness thresholds of buckypapers under arbitrary loads[J]. Mechanics of Materials. 2016, 96:151-168.
[25] Guo Zaoyang, Chen Yang, Peng Xiongqi, Shi Xiaohao, Li Haitao*, Chen Yuli*. Shear stiffness of neo-Hookean materials with spherical voids[J]. Composite Structures. 2016, 150:21-27.
[24] Chen Yuli*, Qiao Chuan, Qiu Xinming, Zhao Shougen, Zhen Cairu, Liu Bin. A novel self-locked energy absorbing system[J]. Journal of the Mechanics and Physics of Solids. 2016, 87:130-149.
[23] Chen Yuli*, Ma Yong, Wang Shengtao, Zhou Yanguang, Liu Hao. The morphology of graphene on a non-developable concave substrate[J]. Applied Physics Letters. 2016, 108 (3):031905.

2015
[22] Zhou Yanguang, Chen Yuli*, Liu Bin, Wang Shengtao, Yang Zhenyu, Hu Ming. Mechanics of nanoscale wrinkling of graphene on a non-developable surface[J]. Carbon. 2015, 84:263-271.
[21] Zhao Libin, Qin Tianliang, Zhang Jianyu*, Chen Yuli. 3D Gradual Material Degradation Model for Progressive Damage Analyses of Unidirectional Composite Materials[J]. Mathematical Problems in Engineering. 2015:145629.
[20] Zhang Jianyu, Zhao Libin*, Li Ming, Chen Yuli. Compressive fatigue behavior of low velocity impacted and quasi-static indented CFRP laminates[J]. Composite Structures. 2015, 133:1009-1015.
[19] Shang Jin, Chen Yuli, Zhou Yanguang, Liu Luqi*, Wang Guorui, Li Xianglong Kuan Jun, Liu Qing, Dai Zhaohe, Miao Hong, Zhi Linjie*, Zhang Zhong*. Effect of folded and crumpled morphologies of graphene oxide platelets on the mechanical performances of polymer nanocomposites[J]. Polymer. 2015, 68:131-139.
[18] Chen Yuli*, Wang Zhiyong, Wang Shengtao, Zhou Zhenggang, Zhang Jianyu, Liu Bin. Carbon Nanotube Reinforced Composites: The Smaller Diameter, the Higher Fracture Toughness?[J]. Journal of Applied Mechanics-Transactions of the Asme. 2015, 82 (8):081009.
[17] Chen Yuli*, Wang Shengtao, Liu Bin, Zhang Jianyu*. Effects of geometrical and mechanical properties of fiber and matrix on composite fracture toughness[J]. Composite Structures. 2015, 122:496-506.
[16] Chen Yuli*, Pan Fei, Wang Shengtao, Liu Bin, Zhang Jianyu. Theoretical estimation on the percolation threshold for polymer matrix composites with hybrid fillers[J]. Composite Structures. 2015, 124:292-299.
[15] Chen Yuli*, Pan Fei, Guo Zaoyang, Liu Bin, Zhang Jianyu. Stiffness threshold of randomly distributed carbon nanotube networks[J]. Journal of the Mechanics and Physics of Solids. 2015, 84:395-423.

2014
[14] Zhao Libin*, Qin Tianliang, Chen Yuli, Zhang Jianyu. Three-dimensional progressive damage models for cohesively bonded composite pi joint[J]. Journal of Composite Materials. 2014, 48 (6):707-721.
[13] Zhao Libin, Gong Yu, Zhang Jianyu*, Chen Yuli, Fei Binjun. Simulation of delamination growth in multidirectional laminates under mode I and mixed mode I/II loadings using cohesive elements[J]. Composite Structures. 2014, 116:509-522.
[12] Zhang Jianyu*, Liu Fengrui, Zhao Libin, Chen Yuli, Fei Binjun. A progressive damage analysis based characteristic length method for multi-bolt composite joints[J]. Composite Structures. 2014, 108:915-923.
[11] Chen Yuli, Wang Shengtao, Pan Fei, Zhang Jianyu*. A Numerical Study on Electrical Percolation of Polymer-Matrix Composites with Hybrid Fillers of Carbon Nanotubes and Carbon Black[J]. Journal of Nanomaterials. 2014:614797.

2012
[10] Chen Yuli, Ghosh Somnath*. Micromechanical analysis of strain rate-dependent deformation and failure in composite microstructures under dynamic loading conditions[J]. International Journal of Plasticity. 2012, 32-33:218-247.

2011
[9] Chen Y. L., Liu B.*, Huang Y., Hwang K. C. Fracture Toughness of Carbon Nanotube-Reinforced Metal- and Ceramic-Matrix Composites[J]. Journal of Nanomaterials. 2011:746029.
[8] Chen Yuli, Liu Bin*, Hwang Keh-Chih, Huang Yonggang. A theoretical evaluation of load transfer in multi-walled carbon nanotubes[J]. Carbon. 2011, 49 (1):193-197.

2010
[7] Chen Yuli, Liu Bin*, He Xiaoqiao, Huang Yonggang, Hwang Keh-Chih. Failure analysis and the optimal toughness design of carbon nanotube-reinforced composites[J]. Composites Science and Technology. 2010, 70 (9):1360-1367.

2009
[6] Chen Yuli, Yin Yajun*, Huang Yonggang, Hwang Keh-Chih. Atomistic Simulations of the Nonlinear Deformation and Damage Modes of Super Carbon Nanotubes[J]. Journal of Computational and Theoretical Nanoscience. 2009, 6 (1):41-45.

2008
[5] Zhang Zuoqi, Liu Bin*, Chen Yuli, Jiang Hanqing, Hwang Keh-Chih, Huang Yong-Gang*. Mechanical properties of functionalized carbon nanotubes[J]. Nanotechnology. 2008, 19 (39):395702.
[4] Liu Bin*, Zhang Zuoqi, Chen Yuli. Atomistic Statics Approaches-Molecular Mechanics, Finite Element Method and Continuum Analysis[J]. Journal of Computational and Theoretical Nanoscience. 2008, 5 (9):1891-1913.
[3] Chen Yuli, Liu Bin, Yin Yajun*, Huang Yonggang, Hwuang Keh-Chih. Nonlinear deformation processes and damage modes of super carbon nanotubes with armchair-armchair topology[J]. Chinese Physics Letters. 2008, 25 (7):2577-2580.
[2] Chen Yuli, Liu Bin*, Wu Jian, Huang Yong-Gang*, Jiang Hanqing, Hwang Keh-Chih. Mechanics of hydrogen storage in carbon nanotubes[J]. Journal of the Mechanics and Physics of Solids. 2008, 56 (11):3224-3241.

2006
[1] Yin Yajun*, Chen Yuli, Yin Jie, Huang Kezhi. Geometric conservation laws for perfect Y-branched carbon nanotubes[J]. Nanotechnology. 2006, 17 (19):4941-4945.

研究领域

当前位置: 中文主页 >> 研究领域

1.基于双/多稳态结构的力学超材料设计

基于双/多稳态结构提出了3D像素力学超材料，简化了超材料的力学设计和性能预测，并显著提高了材料的宏观剪切变形、可编程性、形状可重构性、适应性和可重复使用的抗冲击性。
论文链接：https://doi.org/10.1002/adma.**

2.纳米纤维网络的刚度阈值研究

提出了纤维网络结构“刚度阈值”的概念，推导了纳米纤维网络面内/外的刚度阈值，揭示其存在的内在机理，并建立分段预测公式。
论文链接：https://doi.org/10.1016/j.jmps.2015.07.016
https://doi.org/10.1016/j.ijsolstr.2016.11.020

3. 二维膜-基结构的力学性能分析

发展了一套不依赖于失稳构型的临界失稳分析方法，推导了基底支承石墨烯的统一失稳准则，并建立了凸起基底上石墨烯的贴附形貌相图。
论文链接：https://doi.org/10.1016/j.ijsolstr.2017.06.015
https://doi.org/10.1016/j.ijmecsci.2018.08.001

4. 纳米复合材料的多级失效分析

建立了碳纤维增强复合材料的多层级失效分析模型，研究了纤维和基体模量以及纤维直径对整体增韧的影响。
论文链接：https://doi.org/10.1016/j.compstruct.2014.12.011
https://doi.org/10.1115/1.**

5. 空间自锁吸能系统设计及优化研究

提出一种能够自锁的哑铃状薄壁管状结构，基于该自锁管搭建的系统，在冲击载荷作用下能够实现自锁，防止飞溅产生二次伤害。并发展了一套理论分析方法和设计准则。
论文链接：https://doi.org/10.1016/j.jmps.2015.11.008
https://doi.org/10.1016/j.ijmecsci.2017.01.031
https://doi.org/10.1016/j.tws.2017.06.014

开授课程

当前位置: 中文主页 >> 开授课程

[1]高等复合材料力学
[2]航空科学大观
[3]计算方法
[4]高等复合材料力学
[5]综合实验
[6]复变函数

共6条1/1首页上页下页尾页

科研项目

当前位置: 中文主页 >> 科研项目

[1] 碳纳米管网络力学性能的理论计算研究及优化, 国家自然科学基金, 2013/01/01-2015/12/31, 已结题
[2] 碳纳米管和碳纤维增强的多级/多尺度复合材料力学性能研究, 国家自然科学基金, 2015/01/01-2018/12/31, 已结题
[3] 多尺度复合材料力学, 国家自然科学基金, 2017/01/01-2019/12/31

共3条1/1首页上页下页尾页

论文

当前位置: 中文主页 >> 论文

[1] A Mock Gas Molecules Model for Accurately Simulating Pressure Load at Micro- and Nanoscales.Journal of Applied Mechanics-Transactions ASME.2019,86 (9)
[2] 3D Pixel Mechanical Metamaterials.ADVANCED MATERIALS.2019,31 (25)
[3] Shape and geometry design for self-locked energy absorption systems.INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES.2019,156 :312-328
[4] Strength analysis of bio-inspired composites reinforced by regularly and randomly staggered platelets.COMPOSITE STRUCTURES.2019,216 :415-426
[5] A theoretical analysis on self-collapsing of nanotubes.INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES.2019,160 :51-58
[6] Adhesion-Free Thin-Film-Like Curvature Sensors Integrated on Flexible and Wearable Electronics for Monitoring Bending of Joints and Various Body Gestures.ADVANCED MATERIALS TECHNOLOGIES.2019,4 (2)
[7] Modeling the Large Deformation and Microstructure Evolution of Nonwoven Polymer Fiber Networks.JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME.2019,86 (1)
[8] Bending induced interlayer shearing, rippling and kink buckling of multilayered graphene sheets.JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS.2019,122 :340-363
[9] Dynamic response of self-locked energy absorption system under impact loadings.INTERNATIONAL JOURNAL OF IMPACT ENGINEERING.2018,122 :209-227
[10] Systematic study on the mechanical and electric behaviors of the nonbuckling interconnect design of stretchable electronics.SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY.2018,61 (11)
[11] The Mechanical Characteristics of Monolithic Nanoporous Copper and Its Composites.ADVANCED ENGINEERING MATERIALS.2018,20 (10)
[12] A mode-independent energy method in morphology prediction of graphene on substrates with nanoscale asperities.INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES.2018,146 :355-365
[13] Macroscopic helical chirality and self-motion of hierarchical self-assemblies induced by enantiomeric small molecules.NATURE COMMUNICATIONS.2018,9
[14] Extended Hencky solution for the blister test of nanomembrane.EXTREME MECHANICS LETTERS.2018,22 :69-78
[15] A facile, robust and versatile finite element implementation to study the time-dependent behaviors of responsive gels.EXTREME MECHANICS LETTERS.2018,22 :89-97
[16] A General Strategy for Stretchable Microwave Antenna Systems using Serpentine Mesh Layouts.ADVANCED FUNCTIONAL MATERIALS.2017,27 (46)
[17] Strain-Limiting Substrates Based on Nonbuckling, Prestrain-Free Mechanics for Robust Stretchable Electronics.JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME.2017,84 (12)
[18] Internally nested self-locked tube system for energy absorption.THIN-WALLED STRUCTURES.2017,119 :371-384
[19] A mode -independent energy-based buckling analysis method and its application on substrate-supported graphene.INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES.2017,124 :73-88
[20] Size effect on interlayer shear between graphene sheets.JOURNAL OF APPLIED PHYSICS.2017,122 (7)

共54条1/3首页上页下页尾页页

荣誉及奖励

当前位置: 中文主页 >> 荣誉及奖励
[1]“****青年学者”
[2]国家优秀青年科学基金项目
[3]教育部“新世纪优秀人才支持计划”

共3条1/1首页上页下页尾页