王长国 - 哈尔滨工业大学

个人简介

Work(工作经历) 2007.11-至今 CCMS, School of Astronautics, HIT 哈工大航院复合材料与结构研究所（2007.11-2009.12讲师；2009.12-2013.12副教授；2013.12-拔尖教授；2016.12-长聘岗教授） 2007.6-2011.3 Post-doctorial Stations, School of Materials, HIT 哈工大材料学院博士后流动站 2014 University of Manitoba, Q. Wang院士课题组，交流访问 2009 Institute of Lightweight Structures, Technische Universitat München, Munich, Germany (TUM-LLB)慕尼黑工业大学轻型结构实验室，H.Baier教授课题组，访问学者 Education(教育经历) 2004.4-2007.4, Engineering Mechanics, HIT, Ph.D 哈尔滨工业大学,博士 2002.9-2004.4, Engineering Mechanics, HIT, M.E. 哈尔滨工业大学,硕士 1998.9-2002.7, Engineering Management, SJU, B.S. 沈阳建筑大学,本科 Honors(荣誉和奖励) 2007.09, the second prize of scientific and technological progress award 省部级科技进步二等奖 2008.09, 哈工大第十届优秀博士学位论文 2009.09, the nomination award of top 100 outstanding doctoraldissertations in China 全国百篇优秀博士学位论文提名 2009.11, 哈工大第三届青年教师教学基本功竞赛一等奖 2011.01, 航院2010年度何鸿燊奖教金(SHAFT) 2011.11, the Program for New Century Excellent Talents in University 教育部“新世纪优秀人才支持计划” 2012.07, 哈工大基础研究杰出人才培育计划III类 2012.11, the third prize of scientific and technological progress award 省部级科技进步三等奖 2012.12, 校优秀专兼职工作者 2013.09, 哈尔滨工业大学教学新秀奖 2013.11, the second prize of Technology Invention Award 省部级技术发明二等奖 2013.12, the outstanding youth talent plan of HIT 哈工大“青年拔尖人才选聘计划” 2013.12，黑龙江省优秀硕士学位论文指导教师 2014.10, the second prize of scientific and technological progress award 省部级科技进步二等奖 2017.02，黑龙江省高等学校科技发明奖一等奖 2017.05，全国创新争先奖牌(核心成员) 2017.12，国际级科技创新团队奖（团队核心成员） 2018.01，教育部高等学校科学研究优秀成果奖技术发明奖二等奖 2018年，入选国家级青年人才计划 2019.07，黑龙江省“头雁”团队（核心成员） 2020.01，第十四届黑龙江省青年科技奖 2020.12，黑龙江省优秀硕士学位论文指导教师（研究生，刘猛雄） 2021.07，哈工大立德树人先进个人 2021.09，哈工大优秀博士学位论文指导教师（研究生，刘远鹏） 2021.09，哈工大青年科学家工作室学术带头人 2022.01，省优秀硕士论文指导教师（研究生，王珂），省优秀博士论文指导教师（研究生，刘远鹏） 2022年，入选国家级高层次人才计划 2023年，教育部高等学校科学研究优秀成果奖自然科学奖二等奖 2023年，校优秀博士学位论文指导教师

研究领域

近年来，主要围绕柔性体失稳力学及其在航空航天、新能源和机器人等领域的应用开展研究。采用有限差分、连续分岔、相场法和机器学习等方法，开展如下方向的理论研究。主要研究方向包括：（1）充气张力体的失稳与保形（航空航天轻量化）理论：分岔及kink失稳及屈后振动；应用：薄膜航天器、临近空间浮空器及充气机器人等（相关论文：IJSS,2018,2013,2009,2007; IJMS,2017:120,2017:126,2016,2015,2013; PRSA-MP,2016; JSV,2016; AIAA J,2020,2019,2015; CJA,2020）（2）折剪纸结构的屈曲与调控（多功能材料与结构）理论：曲面弯折snap失稳及孪生失稳、折叠展开动力学；应用：力学及功能超材料，纳米器件、大型空间结构的折叠展开与控制等（相关论文：IJSS,2020,2018; IJES,2016; IJMS,2020; CARBON,2016; CPB-E,2018）（3）软质结构的失效与控制（新能源材料与器件）理论：棘轮失稳、枝晶失稳、空穴失稳、多场耦合失稳、分层与断裂；应用：锂电池安全性与仿生软体机器人等（相关论文：JMPS,2019; IJSS,2016; SM,2017,2018; CS,2017:161,2017:174; APL,2016）

近期论文

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Z.M.Xue, G.B.Chen, C.G.Wang*, R.Huang*. Peeling and sliding of graphene nanoribbons with periodic van der Waals interactions. Journal of the Mechanics of Physics and Solids. 2021, https://doi.org/10.1016/j.jmps.2021.104698 Y.P.Liu, K.Guo, C.G.Wang*, H.J.Gao*. Wrinkling and ratcheting of a thin film on cyclically deforming plastic substrate: mechanical instability of the solid-electrolyte interphase in Li-ion batteries. Journal of the Mechanics of Physics and Solids. 2019,123:103-118. https://doi.org/10.1016/j.jmps.2018.08.006 Y.P.Liu，K.Guo, C.G.Wang*, J.C.Han, H.J.Gao*. Concentration dependent properties and plastic deformation facilitate instability of the solid-electrolyte interphase in Li-ion batteries. International Journal of Solids and Structures, 2020,198:99-109. https://doi.org/10.1016/j.ijsolstr.2020.04.013 Y.F.Wang and C.G.Wang*. Mechanics of Strain-limiting Wrinkled Kirigami for Flexible Devices: High Flexibility, Stretchability and Compressibility. International Journal of Solids and Structures, 2021, Accepted Z.M.Xue. C.G.Wang*, H.F.Tan. Articulated surface wrinkling of a patterned film with periodic stiffness distribution on a compliant substrate. International Journal of Solids and Structures, 2020, 200-201, 132-144. https://doi.org/10.1016/j.ijsolstr.2020.05.021 M. X. Liu, C. G. Wang*, X. D. Li, Rigid-flexible contact analysis of an inflated balloon with various contact conditions. International Journal of Solids and Structures, 2018, 144-145: 218-229. https://doi.org/10.1016/j.ijsolstr.2018.05.004 Z. M. Xia, C. G. Wang*, H. F. Tan, Elastoplastic folding behavior of membrane ribbon based on plane strain beam theory. International Journal of Solids and Structures, 2018,143:167-174. https://doi.org/10.1016/j.ijsolstr.2018.03.004 Z. M. Xia, C. G. Wang*, H. F. Tan, Quasi-static unfolding mechanics of a creased membrane based on a finite deformation crease-beam model. International Journal of Solids and Structures, 2020,207:104-112. C. G. Wang, Y. P. Liu, H. F. Tan,Global and local interactive buckling behavior of a stiff film/compliant substrate system. International Journal of Solids and Structures, 2016, 102-103: 176-185. doi: 10.1016/j.ijsolstr.2016.10.006 Y.F.Wang, C.G.Wang. Buckling of Ultrastretchable Kirigami Metastructures for Mechanical Programmability and Energy Harvesting. International Journal of Solids and Structures,2021,213:93-102,https://doi.org/10.1016/j.ijsolstr.2020.12.018 C. G. Wang, L. Lan, Y. P. Liu, H. F. Tan.Vibration characteristics of wrinkled single-layered graphene sheets.International Journal of Solids and Structures, 2013, 50(10):1812-1823. C. G. Wang, X. W. Du, H. F. Tan, X. D. He,A New Computational Method for Wrinkling Analysis of Gossamer Space Structures, International Journal of Solids and Structures, 2009, 46(6):1516-1526. C. G. Wang, H. F. Tan, X. W. Du and Z. M. Wan. Wrinkling Prediction of Rectangular Shell-Membrane under Transverse In-Plane Displacement. International Journal of Solids and Structures, 2007, 44(20): 6507-6516. Y. F. Wang, C. G. Wang*, H. F. Tan. Geometry-dependent stretchability and stiffness of ribbon kirigami based on large curvature curved beam model. International Journal of Solids and Structures, 2020,182-183:236-253, https://doi.org/10.1016/j.ijsolstr.2019.08.007. T.Ma, Y.P.Liu, G.C.Lin, C.G.Wang, H.F.Tan, A finite element based coarse-grained model for cell-nanomaterial interactions by combining absolute nodal coordinate formula and Brownian dynamics. Journal of Applied Mechanics ASME. 2021,88(4):041002. https://doi.org/10.1115/1.4049143. J.W.Zhang, X.H.Qiu, C.G.Wang, Y.P.Liu. A general theory and analytical solutions for post-buckling behaviors of thin sheet. Journal of Applied Mechanics ASME. 20220301 Accepted on line DOI: 10.1115/1.4053990 Z.M.Xue, C.G.Wang, et al., Controlled surface wrinkling as a novel strategy for the compressibility-tunable PZT film-based energy harvesting system. Extreme Mechanics Letters, 2021,42:101102. Y.P. Liu, C.G. Wang*, H. F. Tan. The interactive bending wrinkling behaviour of inflated beams.P. Roy. Soc. A-Math. Phy. 2016, 472: 20160504. Ji Q, Xue Z, Zhang Z, Cui Z, Kadic M*, Wang C*. Interlayer torsional sliding and strain localization in bilayer graphene. P. Roy. Soc. A-Math. Phy. 2023, 479: 20220833. M.X.Liu, X.D.Li, C.G.Wang*, Lateral constrained wrinkling of the film/substrate system under interfacial sliding. International Journal of Mechanical Sciences. 2022,217:107022 Q.Tao, C.G.Wang*, et al., Mixed-mode bending of a smart reconfigurable lattice structure with bi-directional corrugated core. International Journal of Mechanical Sciences. 2020,185:105848. https://doi.org/10.1016/j.ijmecsci.2020.105848 J.T.Kang*, Y.Q.Xu, C.G.Wang*. Instability and stress analysis for cavitation in soft graded elastic solids. International Journal of Mechanical Sciences. 2020, 188: 105934. https://doi.org/10.1016/j.ijmecsci.2020.105934. C.G.Wang,L.Lan, H.F.Tan. Mode jumping analysis of thin film secondary wrinkling. International Journal of Mechanical Sciences. 2015,104:138-146. C. G. Wang, L. Lan, H. F. Tan. Secondary Wrinkling Analysis of Rectangular Membrane under Shearing. International Journal of Mechanical Sciences. 2013,75:299-304. C. G. Wang, Y. P. Liu, L. Lan, L. Li. H. F. Tan, Post-wrinkling analysis of a torsionally sheared annular thin film by using a compound series method. International Journal of Mechanical Sciences. 2016,110:22-33. C.G.Wang, M. X. Liu, H. F. Tan. Bending wrinkling and kink behaviors of inflated beam under local uniform loadings. International Journal of Mechanical Sciences. 2017,120:136-148. Q.X.Ji, C.G.Wang*, H.F. Tan. Multi-scale wrinkling analysis of the inflated beam. International Journal of Mechanical Sciences. 2017(126):1-11. J.Zhang, L.M.Zhang, C.G.Wang. Reconfigurable helical antenna based on SMP Kresling origami pattern with spherical cap, International Journal of Mechanical Sciences, 2022, 227: 107470 H.F.Tan,J.T.Kang,and C.G.Wang*.Study on grooved wall flow under rarefied condition using Lattice Boltzmann Method. International Journal of Mechanical Sciences. 2015,90:1-5. Y. F. Wang，C. G. Wang*, Effect of temperature difference on the mechanical responses of ribbon kirigami: Toward the highly stretchable conductors. International Journal of Mechanical Sciences. 2020,168:105301. https://doi.org/10.1016/j.ijmecsci.2019.105301 C. G. Wang, Z. M. Xia, H. F. Tan. An improved molecular structure mechanics method and its application for graphene wrinkling. International Journal of Engineering Science. 2016, 106:168-178. C.G.Wang,Y.P.Liu,L.Lan and H.F.Tan.Free transverse vibration of a wrinkled annular thin film by using finite difference method.Journal of Sound and Vibration. 2016,363:272-284. J.T.Kang, C.G.Wang*, et al., Drying-induced pressure rise and fracture mechanics modeling of the sphagnum capsule. Accepted on line by International Journal of Applied Mechanics 2020 L. Lan, C. G. Wang* and H. F. Tan. Experiment and evaluation of wrinkling strain in a corner tensioned square membrane. Acta Mech.Sinica. 2014,30(3):430-436. C.G. Wang, M.X. Liu, H.F. Tan. Interactive buckling of inflated envelope under mechanical and thermal loads. Acta Mech. Sinica.. 2016. doi:10.1007/s10409-016-0615-x C. G. Wang, H. F. Tan and X. D. He. Wrinkle-Crease Interaction Behavior Simulation of A Rectangular Membrane under Shearing. Acta Mech. Sinica., 2011,27(4): 550-558. C. G. Wang, H. F. Tan and X. W. Du. Pseudo-Beam Method for Compressive Buckling Characteristics Analysis of Space Inflatable Load-Carrying Structures. Acta Mech. Sinica., 2009, 25(5):659-668. C. G. Wang, H. F. Tan, X. W. Du and X. D. He. A New Model for Wrinkling and Collapse Analysis of Membrane Inflated Beam. Acta Mech. Sinica., 2010,26(4):617-623. C.G. Wang, M.X. Liu, H.F. Tan. Interactive buckling of an inflated envelope under mechanical and thermal loads.Acta Mech. Sinica., 2017, 33(1): 159-172. C. G. Wang, Z. M. Xia, and H. F. Tan. InitialShape Design and Stability Analysis of Rib for Inflatable Deployable Reflector. AIAA Journal. 2015,53(2):486-492. Q.Tao, C.G.Wang, H.F.Tan. Mixed Triangle Lattice Reinforced Membrane Antenna Reflector: Design and Analysis. AIAA Journal. 2020,58:1987-1900. Ji Zhang, Shuo Liu, Lamei Zhang, and Changguo Wang. Origami-Based Metasurfaces: Design and Radar Cross Section Reduction. AIAA Journal, 2020,58:5478-5482. doi: doi/abs/10.2514/1.J059547 K.Wang, C.G.Wang et al., Tensile-tearing analysis of rectangular thin film with central defect. AIAA Journal, 2021, 59:3781-3786. doi: doi/abs/10.2514/1.J060446 J.Zhang, W.X.Miao,L.M.Zhang,C.G.Wang. Kirigami-Based Stretchable Low-RCS Microstrip Antenna: Design and Analysis. AIAA Journal, 2022,60:1958-1964 Y. Z. Shen, G. C. Lin, C. G. Wang and H. F. Tan. Shape Adjustment of Flexible Rib for Large Deployable Reflector. AIAA Journal. 2019,58(3):1-4. doi: 10.2514/1.J058113. Guo, Jiaming; Qiu, Xinghan; Zhang, Zaoxu; Zhang, Lamei; Wang, Changguo, Inflated Pillow with Flexible Bistable Kink: Snap Design and Application. AIAA Journal, 20220620 Y.C.Zhang, X.H.Qiu, C.G.Wang. Design and Analysis of Large-Area Membrane Antenna Reflector for CubeSats, AIAA Journal, 20220606 https://doi.org/10.2514/1.J061954 Z.Y.Zhang, X.H. Qiu, L.M. Zhang, C.G. Wang. Bioinspired Smart Helical Antenna: Variable Configuration Design and Application. AIAA Journal, 20230506 J.M.Guo, X.H.Qiu, L.M.Zhang, C.G.Wang. Frequency Reconfigurable Antenna Actuated by Inflated Triangular Beam: Design and Analysis. Chinese Journal of Aeronautics, accepted 20220927 Y. C. Zhang, C. G. Wang*. Light weight optimization of the stratospheric airship envelope based on the reliability analysis. Chinese Journal of Aeronautics. 2020,33(10):2670-2678. (highlight paper) https://mp.weixin.qq.com/s/afPQb2B0uPGrDgXClQUVjA Ji Zhang, Changguo Wang, et al., Pressure-induced instability and its coupled aeroelasticity of inflated pillow. Chinese Journal of Aeronautics. 2022,35(2):1-7 (highlight paper) (cover paper) https://mp.weixin.qq.com/s/LFxq_OTJ4QrSyUSsuE0URQ J.Zhang, C.G.Wang, L.M.Zhang. Deployment of SMP Miura-Ori sheet and its application: aerodynamic drag and RCS reduction. Chinese Journal of Aeronautics. (highlight paper) 2022,35:121-131 https://mp.weixin.qq.com/s/HdwSbRVNnjBvJSC0btNNOQ W.Gao, J.Zhang, T.Ma, G.Lin, Y.Liu, C.Wang, H.Tan. A novel inflatable rings supported design and buoyancy-weight balance deformation analysis of stratosphere airships. Chinese Journal of Aeronautics. 2022，35(1): 340-347 Q.X.Ji, C.G.Wang, et al., Selective Thermal Emission and Infrared Camouflage Based on Layered Media. Chinese Journal of Aeronautics. 202204 C. G. Wang, J. Xie, H. F. Tan.The Modal Analysis and Modal Behavior Investigations on the Wrinkled Membrane Inflated Beam. Acta Astronautica, 2012,81:660-666. Q. Tao, C. G. Wang*, Z. M. Xue, Z. M. Xie, H. F. Tan. Wrinkling and collapse of mesh reinforced membrane inflated beam under bending. Acta Astronautica. 2016,128: 551-559. J.M.Guo, C.G.Wang，Vibrational frequencies and modes of kinked inflatable beam. Thin-Walled Structures. 2022, 179: 109628 C. G. Wang, Z. Y. Du and H. F. Tan.Initial wrinkling and its evolution of membrane inflated cone in bending. Thin-walled structures, 2012,59:97-102. Z.M.Xue, C.G.Wang*, J.T.Kang, H.F.Tan. Buckling and wrinkling analysis of inflated arch based on Pseudo Curved Beam model. Thin-walled structures. 2018,131: 336-346. J.T.Kang, C.G. Wang*, Z.M.Xue, M.X.Liu, H.F.Tan, Buckling Delamination Induced Microchannel: Flow Regulation in Microfluidic Devices. Appl. Phys. Lett., 2016,109:103503. Y.C.Zhang, Y.P.Liu, Q.Tao, C.G.Wang. Mesh/membrane composite with superior mechanical performance: A deep learning-based design. Composites Sciences Technology，20220910 accepted C.G.Wang, J.T.Kang, Z.M.Xue, H.F.Tan, Buckling induced delamination and microflow analysis of film/substrate system. Composite Structures. 2017,161:8-14. Y. P. Liu, C.G.Wang*, H .F. Tan. Growth from buckling to buckling-driven delamination in a film/substrate system with finite thickness. Composite Structures. 2017,174:292-300. J.Zhang, Y.S.Wang, L.M.Zhang, C.G.Wang. Flexible kirigami with local cylindrical shell design for stretchable microstrip antenna. Composite Structures, 2022,296:115879 C.G.Wang, Y.F.Wang, The mechanical design of a hybrid intellegent hinge with shape memory polymer and spring sheet. Compos. Part.B: Engineering. 2018,134:1-8. C. G. Wang and H. F .Tan. Experiment and numerical studies on wrinkling control of inflated beam using SMA wires. Smart Mater. Struct., 2010, 19(10):105019(9pages). J.T.Kang, S.X.Liu, C.G.Wang. Controllable Bistable Smart Composite Structures Driven by Liquid Crystal Elastomer.Smart Mater. Struct. 2022,31:015003 C.G.Wang,Y. P. Liu, J. Al-Ghalith, T. Dumitric？, M. K. Wadee, H .F. Tan. Buckling behavior of carbon nanotubes under bending: from ripple to kink, Carbon, 2016,102:224-235. C. G. Wang, Y. P. Liu. L. Lan, H. F. Tan. Graphene wrinkling: formation, evolution and collapse. Nanoscale, 2013, 5:4454-4461. C. G. Wang, Y. P. Liu. L. Li, H. F. Tan. Anisotropic thermal conductivity of graphene wrinkles. Nanoscale, 2014, 6:5703-5707. Z.Y.Zhang, Y.F.Wang, J.T.Kang, X.H.Qiu, C.G.Wang. Helical Micro-Swimmer: Hierarchical Tail Design and Propulsive Motility, Soft Matter. 2022, 18 (33) , pp.6148-6156. J.T. Kang, C.G. Wang*, H.F. Tan, Cavitation in inhomogeneous soft solids. Soft Matter, 2018. http://dx.doi.org/10.1039/C8SM01464G. J.T.Kang, C.G.Wang*, S.Q.Cai. Cavitation to Fracture Transition in a Soft Solid. Soft Matter. 2017,13：6372-6376. J.W.Zhang,Y.P.Liu,C.G.Wang,H.F.Tan. An electrochemical-mechanical phase field model for lithium dendrite. Journal of The Electrochemical Society. 2021 Accepted 王长国, 杜星文, 赫晓东. 空间充气薄膜结构的褶皱分析. 力学学报. 2008.(40)3:331-338. 王长国, 杜星文, 万志敏. 空间薄膜结构褶皱的数值模拟最新研究进展. 力学进展. 2007,37(3): 389-397. 杜星文, 王长国, 万志敏. 空间薄膜结构的褶皱研究进展. 力学进展. 2006,36(2):187-199. 王长国, 杜星文, 万志敏. 薄膜褶皱的非线性屈曲有限元分析. 计算力学学报. 2007,24(3):269-274. 王长国，卫剑征，刘宇艳，苗常青，林国昌，谢志民，王友善，杜星文，谭惠丰. 航天柔性展开结构技术及其应用研究进展. 宇航学报. 2020, 录用.