王冠楠 - 浙江大学 - 建筑工程学院

个人简介

王冠楠，浙江大学建工学院“百人计划”特聘研究员，博士生导师。已在力学、材料、土木领域的国际知名期刊发表SCI论文44篇（自2016年来发表论文42篇），其中第一或通讯作者33篇。主持国家自然科学基金青年项目1项，参与面上项目1项。多次参加国际会议并作大会报告，并被知名大学和科研机构特邀做学术报告。工作经历： 2019/09-现在：浙江大学建工学院，交通工程研究所，“百人计划”研究员 2019/01-2019/09：Engineering Materials Concepts（美国），研究员 2016/11-2018/10：德州理工大学（美国），机械工程系，博士后研究员，合作导师：Satya N.Atluri教授（多国工程院/科学院院士）学习经历： 2012/08-2016/08：弗吉尼亚大学（美国），土木工程系，博士研究生，指导老师：Marek-Jerzy Pindera教授 2009/09-2012/06：浙江大学，建工学院，交通工程研究所，硕士研究生，指导老师：徐荣桥、陈伟球教授 2005/09-2009/07：太原理工大学，土木工程学院，桥梁与隧道工程，本科研究与成果研究内容：基于材料-结构一体化设计和优化思想，研究了材料在微/纳观尺度下的多物理非线性力学变形机理和界面破坏形态，建立了一整套从“从微观到宏观”的均匀化和“从宏观到微观”的局部化的材料-结构理论分析和优化设计体系。针对在工程领域中有着广泛应用的传统结构复合材料、新型功能复合材料和先进纳米复合材料，建立了统一的复合材料的多尺度力学性能预测和多物理场耦合理论建模体系，并独立提出或发展了针对长纤维的LEHT方法，针对三维

研究领域

固体力学计算力学复合材料细观力学组合结构振动分析

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

(*代表通讯作者)：传统结构复合材料 1.Qiang Chen,Jianchang Zhu,Wenqiong Tu,Guannan Wang*.A tangential formulation of finite-volume direct averaging micromechanics framework for elastoplastic lotus-type porous metals:Theory and validation.International Journal of Plasticity 2021;139:102968.(IF:6.490) 2.Guannan Wang,Qiang Chen.Homogenization and localization of imperfectly bonded periodic fiber-reinforced composites.Mechanics of Materials 2019;139:103178.(IF:2.958) 3.Qiang Chen,Guannan Wang*.PSO-driven micromechanical identification of in-situ properties of fiber-reinforced composites.Composite Structures,2019;220:608-621.(IF:4.829) 4.Guannan Wang,Leiting Dong,Satya N.Atluri.A Trefftz collocation method(TCM)for three-dimensional linear elasticity by using the Papkovich-Neuber solutions with cylindrical harmonics.Engineering Analysis with Boundary Elements 2018;88:93-103.(IF:2.243) 5.Guannan Wang,Leiting Dong,Junbo Wang,Satya N.Atluri.Three-dimensional Trefftz computational grains for the micromechanical modeling of heterogeneous media with coated spherical inclusions.Journal of Mechanics of Materials and Structures 2018;13(4):505-529.(IF:1.094) 6.Guannan Wang*.Homogenized and localized stress reconfigurations of solid or hollow fiber reinforced materials in a multi-scale framework.Composite Structures 2018;184:1099-1110.(IF:4.829) 7.Guannan Wang*.The elastic solutions of separable problems with the applications to multilayered structures.Archive of Applied Mechanics 2018;88:1525-1543.(IF:1.578) 8.Qiang Chen,Guannan Wang*,Xuefeng Chen.Three-dimensional parametric finite-volume homogenization of periodic materials with multi-scale structural applications.International Journal of Applied Mechanics 2018;10(4):1850045.(IF:1.939) 9.Qiang Chen,Guannan Wang*,Xuefeng Chen,Jia Geng.Finite-volume homogenization of elastic/viscoelastic periodic materials.Composite Structures 2017;182:457-470.(IF:4.829) 10.Guannan Wang,Wenqiong Tu,Marek-Jerzy Pindera.Tailoring the moduli of composites using hollow reinforcement.Composite Structures 2017;160:838-853.(IF:4.829) 11.Guannan Wang,Marek-Jerzy Pindera.On boundary condition implementation via variational principles in elasticity-based homogenization.ASME-Journal of Applied Mechanics 2016;83:101008.(IF:2.772) 12.Guannan Wang,Marek-Jerzy Pindera.Locally-exact homogenization of viscoelastic unidirectional composites.Mechanics of Materials 2016;103:95-109.(IF:2.958) 13.Guannan Wang,Marek-Jerzy Pindera.Locally exact homogenization of unidirectional composites with cylindrically orthotropic fibers.ASME-Journal of Applied Mechanics 2016;83:071010.(IF:2.772) 14.Guannan Wang,Marek-Jerzy Pindera.Locally-exact homogenization of unidirectional composites with coated or hollow reinforcement.Material and Design 2016;93:514-528.(IF:5.77) 15.Guannan Wang,Marek-Jerzy Pindera.Locally-exact homogenization theory for transversely isotropic unidirectional composites.Mechanics Research Communications 2016;78B:2-14.(IF:2.229) 新型功能复合材料 16.Gao M,Yang B,Huang Y,Wang G*.Effect of interphase/interface on the in-plane thermal conductive composites.International Journal of Heat and Mass Transfer 2021,Accepted. 17.Qian Chen,Weiqiu Chen,Guannan Wang*.Fully-coupled electro-magneto-elastic behavior of unidirectional multiphased composites via finite-volume homogenization.Mechanics of Materials 2021;154:103553.(IF:2.958) 18.Guannan Wang,Mengyuan Gao,Bo Yang,Qiang Chen.The morphological effect of carbon fibers on the thermal conductive composites.International Journal of Heat and Mass Transfer 2020;152:119477. 19.Qiang Chen,Guannan Wang*.Computationally-efficient homogenization and localization of unidirectional piezoelectric composites with partially cracked interface.Composite Structures 2020;232:111452.(IF:4.829) 20.Guannan Wang,Qiang Chen,Mengyuan Gao,Bo Yang,David Hui.Generalized locally-exact homogenization theory for evaluation of electric conductivity and resistance of multiphase materials.Nanotechnology Reviews 2020;9:1-16.(IF:2.759) 21.Qiang Chen,Guannan Wang*.Homogenized and localized responses of coated magnetostrictive porous materials and structures.Composite Structures 2018;187:102-115.(IF:4.829) 22.Guannan Wang*.An efficient analytical homogenization technique for mechanical-hygrothermal responses of unidirectional composites with applications to optimization and multiscale analyses.Chinese Journal of Aeronautics 2019;32(2):382-395.(IF:2.095) 23.Xiaoyu Zhao,Guannan Wang*,Yanzheng Wang.Micromechanical modeling in determining the transverse elastic moduli and stress distributions of bamboo.Journal of Materials Science 2018;53(4):2553-2565.(IF:3.442) 先进纳米复合材料 24.Vikram Chandel,Guannan Wang,Mohammad Talha.Advances in modelling and analysis of nano structures:A review.Nanotechnology Reviews 2020;Accepted. 25.Guannan Wang,Wenqiong Tu,Qiang Chen.Characterization of interphase/interface parameters of unidirectional fibrous composites by optimization-based inverse homogenization.International Journal of Applied Mechanics 2019;11(8):1950074.(IF:1.939) 26.Guannan Wang,Qiang Chen,Zhelong He,Marek-Jerzy Pindera.Homogenized moduli and local stress fields of unidirectional nano-composites.Composites B 2018;138:265-277.(IF:6.864) 27.Qiang Chen,Guannan Wang,Marek-Jerzy Pindera.Homogenization and Localization of nanoporous composites–A critical review and new developments.Composites B 2018;155:329-368.(IF:6.864) 28.Guannan Wang,Quanquan Yang,Bo Yang.Localized stress recoveries in hierarchical aligned porous materials with the influence of surface effects or interphases.Materials and Design 2018;155:8-18.(IF:5.77) 29.Qiang Chen,Guannan Wang,Marek-Jerzy Pindera.Finite-volume homogenization and localization of nanoporous materials with cylindrical voids.Part 1:Theory and validation.European Journal of Mechanics/A Solids 2018;70:141-155.(IF:2.931) 30.Qiang Chen,Guannan Wang,Marek-Jerzy Pindera.Finite-volume homogenization and localization of nanoporous materials with cylindrical voids.Part 2:New results.European Journal of Mechanics/A Solids 2019;73:331-348.(IF:2.931) 组合结构静、动力分析及结构加固 31.Zhang Y,Feng Q,Wang G,Xu R.Analytical model for the bending of parallel wire cables considering interactions among wires.International Journal of Mechanical Sciences 2021;194:106192. 32.Qian Feng,Peng Wei,Xingxi Liu,Guannan Wang,Rongqiao Xu.Short-term load-deflection behavior of corroded RC beams with confinement effect on the partial-interaction segmental approach.Engineering Structures 2020;220:111014. 33.Qian Feng,Guannan Wang,Yong-Ping Zhang,Rongqiao Xu.Numerical simulation of partial-interaction load-deflection behavior of corroded reinforced concrete beams based on a segmental approach and evaluation of reinforcement corrosion level.Journal of Zhejiang University:Science A 2020;21(4):280-293. 34.Jianping Lin,Guannan Wang*,Rongqiao Xu.Variational principles and explicit finite element formulations for the dynamic analysis of partial-interaction composite beams.ASCE-Journal of Engineering Mechanics 2020;Accepted.(IF:2.264) 35.Xingxi Liu,Jiaqing Jiang,Guannan Wang,Jinfeng Wang,Rongqiao Xu.Debonding analysis of curved RC beams externally bonded with FRP plates using CZM.Engineering Structures 2020;205:110103.(IF:3.084) 36.Jianping Lin,Guannan Wang*,Rongqiao Xu.Particle swarm optimization-based finite-element analyses and designs for shear connector distributions of partial-interaction composite beams.Journal of Bridge Engineering 2019;24(4).(IF:1.84) 37.Jianping Lin,Guannan Wang*,Guangjian Bao,Rongqiao Xu.Stiffness matrix for the analysis and design of partial-interaction composite beams.Construction and Building Materials 2017;156:761-772.(IF:4.046) 38.Rongqiao Xu,Guannan Wang.Variational principle of partial-interaction composite beams using Timoshenko’s beam theory.International Journal of Mechanical Sciences 2012;60(1):72-83.(IF:4.134) 39.Rongqiao Xu,Guannan Wang.Bending solutions of the Timoshenko partial-interaction composite beams using Euler-Bernoulli solutions.Journal of Engineering Mechanics 2013;139(12),1881-1885.(IF:2.264) 材料－结构多尺度分析 40.Xiaoyu Zhao,Wenqiong Tu,Qiang Chen,Guannan Wang*.Multiscale modeling of transverse thermal conductivity of unidirectional natural fiber composites.Int.J.Therm.Sci.2021;162:106782.(IF:3.476) 41.Li Tian,Haitao Zhao,Mingqing Yuan,Guannan Wang*,Boming Zhang,Jia Chen,Ji'an Chen.Global buckling and multiscale responses of fiber-reinforced composite cylindrical shells with trapezoidal corrugated cores.Compos.Struct.2020;113207.(IF:4.829) 42.Guannan Wang,Leiting Dong,Satya N.Atluri.Direct and inverse multi-scale analyses of arbitrarily functionally graded layered hollow cylinders(discs),with different shaped reinforcements,under harmonic loads.Composite Structures 2018;188:425-437.(IF:4.829) 43.Guannan Wang*,Marek-Jerzy Pindera.Elasticity-based microstructural optimization:An integrated multiscale framework.Materials and Design 2017;132:337-348.(IF:5.77) 44.Zhelong He,Guannan Wang,Marek-Jerzy Pindera.Multiscale homogenization and localization of materials with hierarchical porous microstructures.Composite Structures 2019;222:110905.(IF:4.829) 在审 45.Huang Y,Wang G*,Dong L*,Atluri SN.3D Viscoelastic Computational Grains with Spherical Inclusions with or without Interphases/Coatings for Micromechanical Modeling of Heterogeneous Materials,Under Revision. 46.Lin J,Lin L,Peng Z,Xu R,Wang G.Study on the crack performance in the hogging-moment regions of natural curing steel-UHPC and steel-UHTCC continuous composite beams.Submitted. 47.Guannan Wang,Zhelong He,Qiang Chen.The surface effects on solid and hollow nanowires under diametral loading.Under Revision. 48.Qiang Chen,Guannan Wang*.Tailoring elastic-plastic response of multilayered Ti-Al metal composites using sinusoidal wavy architectures.In preparation. 49.Jianping Lin,Guannan Wang*,Rongqiao Xu.Explicit finite element formulations for the free vibrations and buckling of partial-interaction composite beams with axial loading.Under Review。 50.Xu R,Su J,Wu R,Wang G*.Debonding analysis of FRP-strengthened concrete beams using an innovative beam element with a surface-bonded FRP sheet.Under Review. 51.Jianping Lin,Xiaolei Liu,Rongqiao Xu,Wang G*.Static and dynamic analysis of three-layered partial-interaction composite beams.Under Review.

学术兼职

担任纳米材料领域知名SCI期刊《Nanotechnology Reviews》编委。