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哈爾濱工業(yè)大學(xué)航天學(xué)院力學(xué)研究所導(dǎo)師王長國介紹如下：

My Curriculum Vitae

Prof. Dr. Changguo Wang

Ph.D Supervisor in Engineering Mechanics

Deputy Director of Center for Composite Materials

National Key Laboratory of Science and Technology on Advanced Composites in Special Environments

School of Astronautics

Harbin Institute of Technology

------------------

王長國，1979年11月，遼寧大連人。

教授，博士生導(dǎo)師。

復(fù)合材料與結(jié)構(gòu)研究所 副所長

哈工大 航天學(xué)院

作為項(xiàng)目負(fù)責(zé)人主持承擔(dān)國家自然科學(xué)基金、高分國家重大科技專項(xiàng)、科工局民用航天預(yù)研、國防863等項(xiàng)目。 獲得國防技術(shù)發(fā)明二等獎1項(xiàng)、軍隊(duì)科技進(jìn)步二等獎3項(xiàng)、教育部技術(shù)發(fā)明二等獎1項(xiàng)，省高�？萍吉勔坏泉�1項(xiàng)，全國百篇優(yōu)秀博士學(xué)位論文提名獎，入選教育部新世紀(jì)優(yōu)秀人才支持計劃，國家萬人計劃青年拔尖人才。

聯(lián)系方式

電話 0451-86402368

郵箱 wangcg@hit.edu.cn

地址  哈市南崗區(qū)一匡街2號哈工大科學(xué)園A棟416室,150080

Overview

Changguo Wang is a tenured professor in Center for Composite Materials, National Key Laboratory of Science and Technology on Advanced Composites in Special Environments, School of Astronautics at Harbin Institute of Technology (HIT), China.

Professor Wang was born in Dalian, Liaoning Province, China, in 1979. He received the B.S. degree in Engineering Management from Shenyang Jianzhu University, China in 2002; the M.E. and Ph.D degrees in Engineering Mechanics from Harbin Institute of Technology, China in 2004 and 2007, respectively. Wang was a visiting scholar in Institute of Lightweight Structures, Technische Universit？t München in Munich in 2009.

His current research interests include Mechanics of Flexible Structures, Flexible Composite Materials and Structures, Structural Lightweight and Optimization, Structural Buckling/Wrinkling and Vibration, Delamination of Composite Structures, Membrane Crease, Nanoscale Wrinkling Mechanics.

Professor Wang currently serves as a member of council in Society of Composite of Heilongjiang Province.

He is the senior member of CSTAM and CSFCM, a member of AIAA, IASS, and ShellBuckling.

He is the Editoral board of JACM, Front.Mech.Mater., Material Science: Adv. Compo. Struct. etc..

He has served as an organizing committee member, technical program committee member, or scientific committee member for several international conferences, such as MECHCOMP3, M2D2017, MDCE 2016, MEME2016, MSCE2016, and CAC2014, etc..

He was the keynote/session speakers for several international conferences, such as MME2016, MSCE2016, IAC2014, and TCIS2013, etc..

He is the author of over 80 papers in top academic journals such as JMPS, IJSS, Carbon, Proceedings A, IJES, APL, AIAA J., Nanoscale, IJMS, Compo Struct, Soft matter, TWS, Smart mater struct, APL, etc, with more than 800 SCI citations.

He is a referee for ~30 international journals, such as IJSS, IJMS, NC, Strain, JAE, MAMS, Carbon, NS, AIAA J., IJNME, AMS, etc.

Honors(榮譽(yù)和獎勵)

2007.09, the second prize of military scientific and technological progress award

         總裝備部軍隊(duì)科技進(jìn)步二等獎；

2008.09, 哈工大第十屆優(yōu)秀博士學(xué)位論文；

2009.09, the nomination award of top 100 outstanding doctoraldissertations in China

         全國百篇優(yōu)秀博士學(xué)位論文提名；

2009.11, 哈工大第三屆青年教師教學(xué)基本功競賽一等獎；

2011.01, 航院2010年度何鴻燊獎教金(SHAFT)；

2011.11, the Program for New Century Excellent Talents in University

         教育部“新世紀(jì)優(yōu)秀人才支持計劃”；

2012.07, 哈工大基礎(chǔ)研究杰出人才培育計劃III類；

2012.11, the third prize of military scientific and technological progress award

         總裝備部軍隊(duì)科技進(jìn)步三等獎；

2012.12, 校優(yōu)秀專兼職工作者；

2013.09, 哈爾濱工業(yè)大學(xué)教學(xué)新秀獎；

2013.11, the second prize of National Defense Technology Invention Award

         國防技術(shù)發(fā)明二等獎；

2013.12, the outstanding youth talent plan of HIT

         哈工大“青年拔尖人才選聘計劃”；

2014.10, the second prize of military scientific and technological progress award

         總裝備部軍隊(duì)科技進(jìn)步二等獎；

2017.02, 黑龍江省高�？萍吉勔坏泉劊�

2017.05, 全國創(chuàng)新爭先獎牌(團(tuán)隊(duì)核心成員）；

2017.12,國防科技創(chuàng)新團(tuán)隊(duì)獎（團(tuán)隊(duì)核心成員）；

2018.01, 教育部高等學(xué)�？茖W(xué)研究優(yōu)秀成果獎技術(shù)發(fā)明獎二等獎；

2019，第四批國家“萬人計劃”青年拔尖人才；

Work(工作經(jīng)歷)

2007.11-至今 
CCMS, School of Astronautics, HIT
哈工大航院復(fù)合材料與結(jié)構(gòu)研究所

2007.6-2011.3 
Post-doctorial Stations, School of Materials, HIT
哈工大材料學(xué)院博士后流動站

2009 
Institute of Lightweight Structures, Technische Universit？t München, Munich, Germany (TUM-LLB)
德國慕尼黑工業(yè)大學(xué)輕型結(jié)構(gòu)實(shí)驗(yàn)室（TUM-LLB）

Education(教育經(jīng)歷)

2004.4-2007.4, Engineering Mechanics, HIT, Ph.D

哈爾濱工業(yè)大學(xué),博士

2002.9-2004.4, Engineering Mechanics, HIT, M.E.

哈爾濱工業(yè)大學(xué),碩士

1998.9-2002.7, Engineering Management, SJU, B.S.

沈陽建筑大學(xué),本科

Research interests(研究方向)

Prof. Wang's major research direction is focused on the membrane materials and structural mechanics of aircrafts. His research interests include Membrane buckling/wrinkling and vibration; Load-carrying ability of inflated membrane structures; Mechanics of flexible composite materials and structures; Mechanics of membrane folding and unfolding; Space rigidization of membrane materials; Structural design theory and its application of space large-scale deployable antenna reflector; Tension-based shape stability of large-scale flexible structures; Light-weighted optimization and fine design of near-space airship structures; Thermal insulation and drag-reducing of envelope material of airship; Structural technology of mixed reinforced super-pressure envelope of light-than-air structures; Non-contact test technologies of static/dynamic perforcement of membrane structures; of Mechanics of graphene pseudo-membrane; Krigami/Origami mechanics of membrane materials and structures;

我所關(guān)心的是：柔性復(fù)合材料力學(xué)、軟物質(zhì)力學(xué)和納米力學(xué)中的穩(wěn)定性問題；

主要研究方向：航天柔性材料與結(jié)構(gòu)、薄膜飛行器結(jié)構(gòu)技術(shù)、結(jié)構(gòu)穩(wěn)定性與控制

學(xué)術(shù)與科研相關(guān)方面（涉及但不局限）：

A 薄膜屈曲/褶皺與振動

B 充氣膜的承載失效行為

C 柔性復(fù)合材料與結(jié)構(gòu)力學(xué)

D 膜結(jié)構(gòu)折疊/展開力學(xué)

E 薄膜材料的空間剛化

F 空間展開天線反射器結(jié)構(gòu)設(shè)計理論與應(yīng)用

G 大型柔性結(jié)構(gòu)的張力控型

H 臨近空間浮空器結(jié)構(gòu)的輕量化與精細(xì)化設(shè)計

I 平流層飛艇蒙皮材料隔熱與減阻

J 復(fù)合增強(qiáng)超壓囊體結(jié)構(gòu)技術(shù)

K 薄膜結(jié)構(gòu)的非接觸靜動力性能測試技術(shù)

L 石墨烯擬膜結(jié)構(gòu)的力學(xué)行為

M 薄膜材料與結(jié)構(gòu)的Kirigami/Origami設(shè)計與分析

Projects(科研項(xiàng)目)

作為項(xiàng)目負(fù)責(zé)人承擔(dān)過高分國家重大科技專項(xiàng)、國防科工局民用航天預(yù)研、國防863、總裝武器預(yù)研基金、國家自然科學(xué)基金、航空科學(xué)基金等項(xiàng)目20余項(xiàng)。

2019-2022，彈塑性層合膜結(jié)構(gòu)的屈誘多態(tài)失穩(wěn)力學(xué)行為研究，11872160，國家自然科學(xué)基金面上，主持；

2016-2019，柔性網(wǎng)增強(qiáng)充氣梁的彎皺耦聯(lián)行為研究，11572099，國家自然科學(xué)基金面上，主持；

2012-2015，充氣膜承力結(jié)構(gòu)整體屈曲與局部皺曲行為研究，11172079，國家自然科學(xué)基金面上，主持；

2010-2012，薄膜褶皺及二次皺曲行為數(shù)值分析和模擬研究，10902027，國家自然科學(xué)基金青年，主持；

Courses(講授課程)

Undergraduate courses

Mechanic sof Deformable Solid (Elastic and Plastic Mechanics) (Autumn course).

Mechanics of Composite Materials (Spring course).

Flexible Materials and Structures (Autumn course).

Graduate courses

Mechanics of Composite Materials and structures (Master)

Advanced Composite Structures (Doctor)

High Temperature Solid Mechnics (Doctor)

復(fù)合材料與工程專業(yè)本科生課程《柔性復(fù)合材料與結(jié)構(gòu)》

復(fù)合材料與工程專業(yè)本科生課程《變形體力學(xué)I》（航天學(xué)院重點(diǎn)建設(shè)的優(yōu)秀課程）

復(fù)合材料與工程專業(yè)、工程力學(xué)專業(yè)本科生課程《復(fù)合材料及其結(jié)構(gòu)力學(xué)》（航天學(xué)院重點(diǎn)建設(shè)的優(yōu)秀課程）

2010工程力學(xué)碩士研究生課程《復(fù)合材料結(jié)構(gòu)及其力學(xué)》

《先進(jìn)復(fù)合材料與結(jié)構(gòu)》，博士研究生課程

《高溫固體力學(xué)》，博士研究生課程

Projects(教改項(xiàng)目)

《復(fù)合材料專業(yè)校內(nèi)外實(shí)習(xí)基地建設(shè)的研究與實(shí)踐》. 省科技廳“黑龍江省高等教育教學(xué)改革項(xiàng)目”. (JG2012010177). 李金平, 韓杰才, 孟松鶴,張宇民, 王長國. 2012-2014.

《研究生實(shí)踐教學(xué)的研究》. 校“研究生教學(xué)改革項(xiàng)目”. 王榮國, 李金平, 孫躍, 王長國, 梁媛媛. 2010-2012.

發(fā)表的主要研究論文

The selected papers.

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. J. Mech. Phys. Solids. ,2019,123:103-118. https://doi.org/10.1016/j.jmps.2018.08.006

M. X. Liu, C. G. Wang, X. D. Li, Rigid-flexible contact analysis of an inflated balloon with various contact conditions. Int. J. Solids Struct., 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. Int. J. Solids Struct., 2018,143:167-174. https://doi.org/10.1016/j.ijsolstr.2018.03.004

C. G. Wang, Y. P. Liu, H. F. Tan, Global and local interactive buckling behavior of a stiff film/compliant substrate system. Int. J. Solids Struct., 2016, 102-103: 176-185. doi: 10.1016/j.ijsolstr.2016.10.006

C. G. Wang, L. Lan, Y. P. Liu, H. F. Tan.Vibration characteristics of wrinkled single-layered graphene sheets. Int. J. Solids Struct., 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, Int. J. Solids Struct., 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. Int. J. Solids Struct., 2007, 44(20): 6507-6516.

Y.P. Liu, C.G. Wang, H. F. Tan. The interactive bending wrinkling behaviour of inflated beams. Proc. R. Soc. A. 2016, 472: 20160504.

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. J. Sound Vib. 2016,363:272-284.

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.

C.G.Wang,H.FMode jumping analysis of thin film secondary wrinkling. Int.J.Mech.Sci.2015,104:138-146.

C. G. Wang, L. Lan, H. F. Tan. Secondary Wrinkling Analysis of Rectangular Membrane under Shearing. Int. J. Mech. Sci., 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. Int. J. Mech. Sci.,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. Int. J. Mech. Sci., 2017,120:136-148.

Q.X.Ji, C.G.Wang, H.F. Tan. Multi-scale wrinkling analysis of the inflated beam. Int. J. Mech. Sci., 2017(126):1-11.

H.F.Tan,J.T.Kang,and C.G.Wang.Study on grooved wall flow under rarefied condition using Lattice Boltzmann Method.Int.J.Mech.Sci.2015,90:1-5.

C. G. Wang, Z. M. Xia, H. F. Tan. An improved molecular structure mechanics method and its application for graphene wrinkling. Int. J. Eng. Sci., 2016, 106:168-178.

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.

C. G. Wang, Z. M. Xia, and H. F. Tan. InitialShape Design and Stability Analysis of Rib for Inflatable Deployable Reflector. AIAA J., 2015,53(2):486-492.

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.

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.

C. G. Wang, J. Xie, H. F. Tan.The Modal Analysis and Modal Behavior Investigations on the Wrinkled Membrane Inflated Beam. ACTA Astronaut., 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.

C.G.Wang, J.Xie and H.F.Tan.Vibration Simulations of Wrinkled Membrane Inflated Arch. J. Aerospace Eng. 2014,27(2):414-422.

C. G. Wang, H. F. Tan, X. W. Du. Wrinkling Analysis Method Based on Singular Displacement Component Modification for Membrane Structure. AIAA J. Spacecraft Rockets., 2010,47(1):210-213.

C. G. Wang, X. W. Du and L. M. Zhang. Evaluation of Characteristic and Degree of Wrinkles in Space Membrane Structures. AIAA J. Spacecraft Rockets., 2007,44(1):284-286.

C. G. Wang, X. W. Du and Z. M. Wan. Numerical Simulation of Wrinkles in Space Inflatable Membrane Structures. AIAA J. Spacecraft Rockets., 2006,43(5):1146-1149.

C. G. Wang, X. W. Du and Z. M. Wan. An Experimental Study on Wrinkling Behaviours and Characteristics of Gossamer Space Structures. Strain, 2007,43(4):332-339.

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).

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, L. Lan, H. F. Tan. The physis of wrinkling in graphene membrane under local tension. Phys. Chem. Chem. Phys., 2013, 15(8):2764-2773.

J.T.Kang,C.G.Wang and H.F.Tan.Nanoscale crosslinking in thermoset polymers:A molecular dynamics study. Phys. Chem. Chem. Phys.,2015,17,16519 -16524.

C. G. Wang, Z. Y. Du and H. F. Tan. Initial wrinkling and its evolution of membrane inflated cone in bending. Thin wall. struct., 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.

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,J.Xie,H.F.Tan.Vibration evaluation of wrinkled membrance inflated beam.Mech.Adv.Mater.Struc.2015,22(5):376-382.

C. G. Wang, L. N. Mao, X. W. Du, X. D. He. Influence Parameter Analysis and Wrinkling Control of Space Membrane Structures, Mech.Adv. Mater. Struct., 2010, 17(1):49-59.

C. G. Wang, H. F. Tan and X. W. Du. Wrinkling Behaviors of Gossamer Structure with Stretched Annulus-Shape under In-Plane Torsion. Mech.Adv. Mater. Struct., 2008, 15(2):157-164.

C. G. Wang, Z. Y. Du, H. F. Tan. An extremum method for bending-wrinkling predictions of inflated conical cantilever beam. Struct. Eng. Mech., 2013, 46(1): 39-51.

J.T.Kang, H.F.Tan, C.G.Wang, S.Q.Cai. Mechanics modeling of fern cavitation catapult. J. Appl. Phys. 2017,122: 225105.

Y. F. Wang，C. G. Wang, Y . C .Zhang, J .M . Guo, H . F . Tan. Dimensional variation of reconfigurable serpentine graphene nanoribbon under tension. J. Appl. Phys. 2018,125(8),082509.https://doi.org/10.1063/1.5050458

C. G. Wang, L. Lan, Y. P. Liu, H. F. Tan. Functional group-guided variable frequency characteristics of graphene resonator. RSC Adv., 2013,3(36):16095-16101.

C. G. Wang, Y. P. Liu, L. Li, L. Lan, and H. F. Tan. Abnormal Frequency Characteristics of Wrinkled Graphene. RSC Adv., 2014,4:9395-9400.

C. G. Wang, L. Lan; Y. P. Liu; H. F. Tan, Defect-guided wrinkling in graphene. Comp. Mater. Sci., 2013, 77:250-253.

Xia Z M, Wang C G, Tan H F. Strain-dependent elastic properties of graphene oxide and its composite. Comp. Mater. Sci., 2018, 150C:252-258.

Y. F. Wang , C. G. Wang , Y . C .Zhang, H . F . Tan. Graphene kirigami as reinforcement and interfacial bonding effect for toughness and strength of silicon-based nanocomposites. Comp. Mater. Sci., 2019, 159: 306-315.https://doi.org/10.1016/j.commatsci.2018.12.034

C. G. Wang, L. Lan, Y. P. Liu and H. F. Tan. Multiple component correlation model for elastic modulus of single layer graphene sheets. Physica E. 2014,56:372-376.

Xia Z M, Wang C G, Tan H F. Elastic properties of graphene: A pseudo-beam model with modified internal bending moment and its application. Physica E., 2018, 98C:45-52.

Y. P. Liu, C. G. Wang, L. M. Zhang, H. F. Tan. An evaluation method for nanoscale wrinkle. Physica E. 2016,80:191-194.

C. G. Wang, Y. L. Li, X. W. Du and X. D. He. Simulation Analysis of the Vibration Characteristics of Wrinkled Membrane Space Structure. Int. J. Space Struct., 2007,22(4):239-246.

王長國, 杜星文, 赫曉東. 空間充氣薄膜結(jié)構(gòu)的褶皺分析. 力學(xué)學(xué)報. 2008.(40)3:331-338.

王長國, 杜星文, 萬志敏. 空間薄膜結(jié)構(gòu)褶皺的數(shù)值模擬最新研究進(jìn)展. 力學(xué)進(jìn)展. 2007,37(3): 389-397.

杜星文, 王長國, 萬志敏. 空間薄膜結(jié)構(gòu)的褶皺研究進(jìn)展. 力學(xué)進(jìn)展. 2006,36(2):187-199.

王長國, 杜星文, 萬志敏. 薄膜褶皺的非線性屈曲有限元分析. 計算力學(xué)學(xué)報. 2007,24(3):269-274.

C. G. Wang, Y. P. Liu, et al., A Novel Lattice-Based Design and Analysis of Inflatable Wing. 54th AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics & Materials Conference, Boston,Massachusetts, 8–11 April 2013. AIAA 2013-1882.

C. C. Wang, et al., A Numerical Algorithm for Eliminating the Singular Stiffness Matrix of Membrane Wrinkling. 54th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference,Boston, Massachusetts, 8–11 April 2013. AIAA 2013-1930.

C. G. Wang, H. F. Tan and X. D. He. Wrinkle-Crease Interaction Simulation Using Combined MT Model and DP Technique. 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference, Orlando, Florida, 12–15 April 2010. AIAA 2010-2506.

C. G. Wang, H. F. Tan and X. W. Du. Modified Displacement Component Approach for Wrinkling Analysis of Gossamer Space Structures. 48th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference, Sheraton, Waikiki, Hawaii, 23-26 April, AIAA 2007-1822.

C. G. Wang, X. W. Du and Z. M. Wan. Numerical Analysis of Wrinkles in Space Inflatable Membrane Structures. 47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics & Materials Conference, Hyatt Regency Newport, Rhode Island, 1-4 May, AIAA 2006-1797.

C. G. Wang, Z. M. Xia, H. F. Tan. Buckling and wrinkling of inflatable support structure of deployable antenna. 65th International Astronautical Congress (IAC2014), Sep.29-Oct.3,2014.

C. G. Wang, Y. P. Liu, H. F. Tan. Torsional wrinkling behaviour of annular thin elastic sheets. 24th International Congress of Theoretical and Applied Mechanics-ICTAM 2016, Montréal, Canada from August 21-26, 2016.

C. G. Wang, Q. Tao, H. F. Tan. Bending capacity of inflated mesh-reinforced-membrane beam. 24th International Congress of Theoretical and Applied Mechanics-ICTAM 2016, Montréal, Canada from August 21-26, 2016.

 

Authorized invention patents
Patent list

授權(quán)發(fā)明專利列表

 

ZL201010235077.9, 通過修正奇異位移分量消除褶皺計算時剛度矩陣奇異性的方法, 排名第1. 2012

ZL201310572194.8,薄膜拉剪耦合實(shí)驗(yàn)測試裝置，排名第1. 2016

ZL201210257425.1,高精度充氣膜結(jié)構(gòu)設(shè)計方法，排名第1.2014

ZL201210220314.3,一種用于控制充氣結(jié)構(gòu)構(gòu)型混編預(yù)張力索網(wǎng)的方法，排名第1.2013

ZL201210187102.X,一種用于超薄柔性膜材拉伸性能測試用的夾具, 排名第1. 2013

ZL200810064518.6,一種可剛化充氣展開徑向肋支撐式偏饋拋物面天線，排名第1. 2012

ZL201310667740.6, 一種帶膜徑向肋，排名第1. 2016

ZL201210479077.2,充放氣式氣囊展卷裝置，排名第1.2014

ZL201310707375.7,一種可微調(diào)節(jié)間距的徑向肋板及調(diào)節(jié)方法，排名第1.2015

ZL201310182550.5, 排陣式懸索控型剛?cè)峄旌鲜筋愐韨闳嵝猿錃鈾C(jī)翼無人機(jī)，排名第1.2015

ZL201210478594.8,一種落絲陣式可充氣展開機(jī)翼，排名第1. 2016

ZL200810137344.1,保形高空氣球，排名第2. 2011

ZL201010208004.0,充氣骨架空中展開式飛艇，排名第2. 2012

ZL201310047872.9,編織充氣薄膜曲面限位網(wǎng)的模具及方法， 排名第2. 2014

ZL201310565499.6,徑向肋充氣展開天線的徑向肋定位裝置，排名第2. 2015

ZL201310038554.6,一種航天器用充氣式徑向肋天線尾桿連接件，排名第2. 2014

ZL201310106230.1,一種徑向可展開肋板結(jié)構(gòu)的展開裝置，排名第2. 2014

ZL201310213705.7,一種用于徑向肋板展開和收起的裝置和方法，排名第2. 2015

ZL201310213702.3,一種用于制造徑向展開肋板結(jié)構(gòu)的模具及方法，排名第2.2015

ZL201310474616.8,非硬式平流層飛艇自由伸縮裝置，排名第2.2015

ZL201310303691.8, 大口徑充氣經(jīng)向肋天線檢測裝置，排名第2.2016

ZL201210334165.3,充氣環(huán)結(jié)構(gòu)多點(diǎn)向心加載試驗(yàn)裝置，排名第3. 2014

ZL201310583342.6,一種基于漸變厚度彈性板的星載拋物面反射天線的拋物面及其成形方法， 排名第3. 2015

ZL201310696325.3,基于壓彎成型的拋物柱面天線反射面及其實(shí)現(xiàn)拋物柱面的方法，排名第3.2015

ZL201310584659.1,一種柔性拋物形天線的增強(qiáng)骨架，排名第3.2015

ZL201310583225.X,一種帶增強(qiáng)骨架的柔性拋物面星載天線，排名第3.2015

ZL201310568378.7,一種用于高溫?zé)岷蠙C(jī)工作臺的表面覆膜吸附固定裝置，排名第3.2016

ZL201310087915.6,一種由形狀記憶合金和壓電纖維復(fù)合材料組合驅(qū)動的可變后緣機(jī)翼，排名第3. 2015

ZL201310196729.6,基于MFC的自適應(yīng)后緣結(jié)構(gòu)的控制裝置，排名第3.2015

ZL200810137379.5,一種折疊充氣展開式太陽能電池帆板同步展開機(jī)構(gòu)，排名第4. 2011

ZL201110095479.8,碳纖維基準(zhǔn)尺固定裝置, 排名第4. 2012

ZL20131019482.7,一種用于DIC測量的雙相機(jī)系統(tǒng)的標(biāo)定板及其標(biāo)定方法，排名第4.2015

ZL201110120793.7,一種用于充氣衛(wèi)星的體裝式拋物面天線, 排名第4. 2013

ZL201410071233.0, 一種充氣展開拋物柱面天線反射面, 排名第4. 2016

ZL201410082330.X, 徑向肋天線肋板及肋板與中心鼓的連接方法, 排名第4. 2016

ZL201410173379.6, 充氣支撐管與鉸鏈混合支撐展開星載拋物柱面天線, 排名第4. 2016

ZL201310133265.4，一種可重復(fù)使用的變直徑充氣管密封端頭蓋，排名第4.2014

ZL201210466973.5,直管逼近圓環(huán)（拱）的掐褶方法，排名第4.2015

ZL201410003816.X,一種連接充氣環(huán)用復(fù)式搭扣，排名第4.2015

ZL201310619011.3,一種徑向肋天線的肋板尾端與桅桿連接方法，排名第4.2015

ZL201410054473.X,用于徑向肋天線卷曲折疊定位桅桿的裝置，排名第4.2015

ZL201410054488.6,空間充氣控制展開支撐臂卷曲折疊模具，排名第4.2015

ZL201210168800.5,飛艇蒙皮用TPU薄膜減阻微溝槽的熱壓印制備方法, 排名第4. 2014

ZL201210168736.0,飛艇蒙皮用具有減阻微溝槽結(jié)構(gòu)的PU或TPU薄膜, 排名第4. 2014

ZL201210168749.8,飛艇蒙皮用鍍AL型TPU薄膜減阻微溝槽的熱壓印制備方法, 排名第4. 2014

ZL201510012769.X, 大型空間充氣球萬向檢測底座, 排名第4. 2016

ZL201310713547.1, 一種徑向肋充氣展開天線用桅桿, 排名第4. 2016

ZL201410130083.6, 空間充氣展開支撐臂內(nèi)支撐條打磨裝置, 排名第4. 2016

ZL201410173364.X, 冰窟救生裝置, 排名第4. 2016

ZL201210168746.4,飛艇蒙皮用Al層涂覆型TPU薄膜減阻微溝槽的熱壓印制備方法, 排名第5. 2014

ZL201010288539.3,快速可控充氣釋放機(jī)構(gòu), 排名第5. 2013

ZL201410120328.7, 一種充氣展開拋物柱面天線的卷曲折疊及充氣展開結(jié)構(gòu), 排名第5. 2016

ZL201210570451.X,空間站用充氣桌，排名第5.2014

ZL201210168779.9,飛艇蒙皮用鍍TiO2型PU或TPU薄膜減阻微溝槽的制備方法, 排名第6. 2014

ZL201210417576.9,太空飛行器快速充氣展開薄膜支撐管, 排名第6. 2014

ZL201110171685.2,一種雙Ω形碳纖維復(fù)合材料充氣展開臂，排名第6.2014

ZL201310128537.1,一種測試K型復(fù)合材料接頭強(qiáng)度的試驗(yàn)夾具，排名第6.2015

ZL201210168760.4,飛艇蒙皮用TiO2涂覆型PU或TPU薄膜減阻微溝槽的制備方法, 排名第7. 2014

 更多完整信息介紹請前往：http://homepage.hit.edu.cn/wangchg