郭早阳
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资料介绍
个人简历
郭早阳教授,湖南长沙人,1996年和1999年分别获清华大学土木工程系学士和硕士学位,2000至2004年在美国西北大学(Northwestern University, USA)师从美国两院院士、固体力学大师Bazant教授并获博士学位。在西北大学做博士后两年,2006年6月赴英国格拉斯哥大学任讲师(相当于美国大学体系的Assistant Professor),2010年6月任英国纽卡斯尔大学(Newcastle University, UK)土木工程和地球物理学院资深副教授(Reader in Mechanics and Materials),2011年11月经重庆大学“百人计划”引进到工程力学系任教授。2014年6月调动到北京航空航天大学航空学院任教授,2017年11月调动到哈尔滨工业大学深圳校区理学院任教授。自2006年获得讲师职位开始独立科研工作以来,已开始了在固体力学领域多个方向的科研工作,已发表或录用SCI检索论文50余篇,并多次在国际会议和著名大学作学术报告介绍最新研究成果。2012年入选教育部“新世纪优秀人才支持计划”。2013年获重庆市杰出青年基金资助。郭教授课题组欢迎优秀人才报考硕士、博士研究生和申请博士后职位。教育经历1991.09-1996.07 清华大学土木工程系建筑结构工程专业,工学学士,辅修计算机软件工程1996.09-1999.07 清华大学土木工程系结构工程专业,工学硕士2000.06-2004.03 美国西北大学(Northwestern University, USA)土木工程系,博士研究与工作经历2004.03-2004.12 美国西北大学(Northwestern University, USA)机械工程系,博士后2005.01-2006.06 美国西北大学(University, USA)机械工程系,副研究员(Research Associate)2006.06-2010.06 英国格拉斯哥大学(University of Glasgow, UK)土木工程系和机械工程系,讲师2010.06-2011.09 英国纽卡斯尔大学(Newcastle University, UK)土木工程和地球物理学院,资深副教授(Reader)2011.11-2014.05 中国重庆大学工程力学系,教授2014.06-2017.10 中国北京航空航天大学航空学院,教授2017.11- 现在 中国哈尔滨工业大学深圳校区理学院,教授科研项目2008-2011 磁流变(弹性体)橡胶空气弹簧的研究及其应用;中国国家科技部国际科技合作项目;100万元人民币;英方主持2008-2011 Characterisation, modelling and application of magnetorheological elastomers;格拉斯哥工程研究合作基金(GRPE);6万英镑;主持2008-2011 Computational biomechanics of the human spine;格拉斯哥工程研究合作基金(GRPE);6万英镑;共同主持2009-2009 Physical mechanics modelling of carbon nanomaterials under ultrahigh presure;苏格兰大学卡内基信托基金;2千英镑;主持;已结题2009-2011 Modelling on the structural phase transitions and failures of carbon nanomaterials in extreme environments;英国皇家学会研究基金;10万英镑;主持2010-2012 Microstructure-based multi-physics characterisation and modelling of magnetorheological elastomers;英国工程与物理研究理事会(EPSRC) 研究基金;10.1万英镑;主持2011-2012 Preliminary research on multi-physics characterisation and modelling of magnetonano-particle reinforced shape memory polymers (MSMP);英国皇家学会研究基金;1.5万英镑;主持2012-2014 基于工业应用的硅藻基础研究;中央高校基本科研业务费重大项目;100万元人民币;主持;已结题2013-2015 多孔材料及其夹芯结构的控制及损伤机理研究(项目号:313059);中国教育部科学技术研究重大项目;100万元人民币;主持;已结题2013-2015 塑料油箱材料的耐久性建模;美国福特公司大学研究计划;9万美元;主持2013-2016 有限变形颗粒增强复合材料本构建模及应用(项目号:11272362);中国自然科学基金面上项目;86万元人民币;主持;已结题2013-2017 有限变形下智能材料的多场耦合性质研究;重庆市基础与前沿研究计划杰青项目;60万元人民币;主持;已结题2014-2018 超硬纳米多层膜微结构与力学性能及其优化(项目号:11332013);中国自然科学基金重点项目;335万元人民币;主研2016-2019 多轴向经编织物及其涂层织物在有限变形下的本构建模及破坏机理研究;中国自然科学基金面上项目(项目号:11572020);78.6万元人民币;主持科研成果及奖励2007 Universitas 21 Anniversary Fellowship,国际21名校联盟2012 入选教育部“新世纪优秀人才支持计划“发明专利1. 一种MnO2纳米片自组装纳米管及其制备方法;发明专利(已授权);发明人:张育新,黄明,李飞,郭早阳,况敏;专利号:ZL2013103973003任教和任导师经历2001.09-2003.06,美国西北大学 (Northwestern University, USA),助教 课程:结构稳定性,断裂力学,理论力学,非弹性力学2006.06-2010.06,英国格拉斯哥大学 (University of Glasgow, UK) 机械工程系和土木工程系,主讲教师,博士生导师 课程:连续介质力学,有限元方法,应用数学,塑性力学2010.06-2011.09,英国纽卡斯尔大学(Newcastle University, UK)土木工程和地球物理学院,主讲教师,博士生导师 课程:结构矩阵分析、复合材料力学、有限元和可靠度分析指导学生:石晓灏(2012博士)2011.11-2014.05,中国重庆大学工程力学系,主讲教授,博士生导师 课程:结构力学(全英文)、非线性连续介质力学(全英文)、板壳理论(全英文)、科技英语写作、专业英语指导学生:陈杨(2017博士),赵育杰(2016硕士)2014.06-2017.10,中国北京航空航天大学航空学院,主讲教授,博士生导师 课程:弹性力学(全英文)、有限元及编程(全英文)指导学生:崔保让(博士在读),王雷(硕士在读),王倩倩(硕士在读)研究领域
复合材料力学、材料成型分析、计算生物力学、纳米力学、结构力学、连续介质力学和计算力学、结构的断裂、稳定性和破坏分析、非线性材料和结构的力学性质研究等。""近期论文
65.P. Yang, N. Hu, X. Guo, L. Dong, Y. Chen*, Z. Guo*, An ultra-simple universal model for the effective elastic properties of isotropic 3D closed-cell porous materials, Composite Structures 249 (2020), 112531.64.Z. Guo, L. Wang, X. Guo, Y. Chen*, L. Dong*, On effective Mechanical Properties of Two-Dimensional Porous Materials, International Journal of Applied Mechanics 12(4) (2020), 2050040. 63.Z. Guo, M. Hao, L. Jiang, D. Li, Y. Chen*, L. Dong*, A modified Hertz model for finite spherical indentation inspired by numerical simulations, European Journal of Mechanics/A Solids 83 (2020), 104042.62.Z. Guo, Q. Lyu, L. Jiang, Y. Chen, L. Dong, H. Zhang*, Contact Model for Incompressible Neo-Hookean Materials Under Finite Spherical Indentation, Journal of Applied Mechanics-Transactions of the ASME 87 (2020) 051003.61.Y. Chen, P. Yang, Y. Zhou, Z. Guo*, L. Dong*, E. Busso, A Micromechanics-Based Constitutive Model for Linear Viscoelastic Particle-Reinforced Composites, Mechanics of Materials 140 (2020) 103228. 60.Z. Zhao, H. Dang, P. Liu, Z. Guo, C. Zhang*,Y. Li, On the impact failure behavior of triaxially braided composites subjected to metallic plate projectile, Composites Part B Engineering (2020), 186:107816. 59.Y.Chen, X. Shi, Z. Zhao*, Z. Guo*, Y. Li, A thermo-viscoelastic model for particle-reinforced composites based on micromechanical modeling, Acta Mechanica Sinica (2020). 58.P. Yang, Y. Zhang, L. Dong, Y. Chen*, Z. Guo*, N. Hu, Why the reciprocal theorem of Poisson’s ratios does not hold for some orthotropic flexible textile composites, Composite Structures 225 (2019) 111110.57.Y. Chen, Z. Guo*, X.-L. Gao, L. Dong*, Z. Zhong, Constitutive modeling of viscoelastic fiber-reinforced composites at finite deformations, Mechanics of Materials 131 (2019) 102-112.56.Y. Chen, L. Xin, Y. Liu, Z. Guo*, L. Dong, Z. Zhong, A viscoelastic model for particle-reinforced composites in finite deformations, Applied Mathematical Modelling 72 (2019) 499-512.55.Y. Chen, W. Guo, P. Yang, J. Zhao, Z. Guo*, L. Dong*, Z. Zhong, Constitutive modeling of neo-Hookean materials with spherical voids in finite deformation, Extreme Mechanics Letters 24 (2018) 47-57.54. G.Y. Zhang, X.L. Gao* and Z.Y. Guo (2017). A non-classical model for an orthotropic Kirchhoff plate embedded in a viscoelastic medium. Acta Mech, published online.53. Z.Y. Guo, L. Wang, Y. Chen, L.L. Zheng, Z.J. Yang and L.T. Dong* (2017). A universal model for predicting the effective shear modulus of two-dimensional porous materials. Mechanics of Materials, 110, 59-67.52. Y. Chen, L.T. Dong, B. Wang, Y.L. Chen, Z.P. Qiu and Z.Y. Guo* (2017). A substructure-based homogenization approach for systems with periodic microstructures of comparable sizes. Composite Structures , 169, 97-104.51. F. Pan, Y.L. Chen*, Y.L. Liu and Z.Y. Guo (2017). Out-of-plane bending of carbon nanotube films. International Journal Of Solids And Structures, 106, 183-199.50. Z.Y. Guo, Y. Chen, X.Q. Peng, X.H. Shi, H.T. Li* and Y.L. Chen (2016). Shear stiffness of neo-Hookean materials with spherical voids. Composite Structures, 150, 21-27.49. Y.K. Gong, X.Q. Peng*, Y. Yao and Z.Y. Guo* (2016). An anisotropic hyperelastic constitutive model for thermoplastic woven composite prepregs. Composites Science And Technology, 128, 17-24.48. Z.Y. Guo, Y. Chen, Q. Wan, H. Li, X. Shi, S. Tang* and X. Peng* (2016). A hyperelastic constitutive model for chain-structured particle reinforced neo-Hookean composites. Materials & Design, 95, 580-590.47. H. Park, P. Harrison, Z.Y. Guo, M.G. Lee and W.R. Yu* (2016). Three dimensional constitutive model for shape memory polymers using multiplicative decomposition of the deformation gradient and shape memory strains. Mechanics of Materials, 93, 43- 62.46. S. Tang*, Y. Li, Y. Yang and Z.Y. Guo* (2015). The effect of mechanical-driven volumetric change on instability patterns of bilayered soft solids. Soft Matter, 11(40), 7911-7919.45. M.M. Liao, A. Tang, Y.G. Hu* and Z.Y. Guo (2015). Computation of Coefficients of Crack-Tip Asymptotic Fields Using the Weak Form Quadrature Element Method. Journal of Engineering Mechanics, 141(8).44. Z.Y. Guo, Y. Zhao, Z.H. Chen, M.M. Liao*, Z.L. Li and B. Liu (2015). A Mesh Adaptive Procedure for Large Increment Method. International Journal of Applied Mechanics, 7(4), 1550061 (21 pages).43. Y.L. Chen*, F. Pan, Z.Y. Guo, B. Liu and J. Zhang (2015). Stiffness threshold of randomly distributed carbon nanotube networks. Journal of the Mechanics and Physics of Solids, 84, 395-423.42. H. Zhu*, D. Balint and Z.Y. Guo (2014). Theoretical Analysis and Computational Simulation of Advanced Structured Materials. Advances in Condensed Matter Physics, 2014, 1-2.41. W. Zhou, H.Q. Shen, Z.Y. Guo and B. Peng* (2014). Modeling the pull-in behavior of electrostatically actuated micro beams by an approximate finite element method. International Journal of Numerical Modelling: Electronic Networks devices and fields, 27(1), 89-98.40. Y.X. Zhang*, F. Li, M. Huang,Y. Xing,X. Gao, B. Li, Z.Y. Guo and Y.M. Guan (2014). Hierarchical NiO moss decorated diatomites via facile and templated method for high performance supercapacitors. Materials Letters, 120, 263-266.39. Y.X. Zhang*, X.D. Hao, F. Li, Z.P. Diao, Z.Y. Guo and J. Li (2014). pH-Dependent Degradation of Methylene Blue via Rational-Designed MnO2 Nanosheet-Decorated Diatomites. Industrial & Engineering Chemistry Research, 53(17), 6966-6977.38. H.L. Yin, X.Q. Peng*, T.L. Du and Z.Y. Guo (2014). Draping of plain woven carbon fabrics over a double-curvature mold. Composites Science and Technology, 92, 64-69.37. S. Tang*, M.S. Greene, X.H. Peng, W.K. Liu and Z.Y. Guo (2014). Chain confinement drives the mechanical properties of nanoporous polymers. Euro Physics Letters, 106(3), 36002.36. S. Sun, X. Peng* and Z.Y. Guo* (2014). Study on Macroscopic and Microscopic Mechanical Behavior of Magnetorheological Elastomers by Representative Volume Element Approach. Advances in Condensed Matter Physics, 2014.35. Z.Y. Guo*, X.H. Shi, Y. Chen, H.P. Chen, X.Q. Peng* and P. Harrison (2014). Mechanical modeling of incompressible particle-reinforced neo-Hookean composites based on numerical homogenization. Mechanics of Materials, 70, 1-17.34. Z.Y. Guo, H.T. Li*, Q. Wan, X. Peng and J. Wen (2014). A Model to Describe the Magnetomechanical Behavior of Martensite in Magnetic Shape Memory Alloy. Advances in Condensed Matter Physics, 2014.33. Y. Wang, X.Q. Peng* and Z.Y. Guo (2013). Biomechanical analysis of C4-C6 spine segment considering anisotropy of annulus fibrosus. Biomedical Engineering-Biomedizinische Technik, 58(4), 343-351.32. X.Q. Peng*, Y. Wang, S.Q. Shi and Z.Y. Guo (2013). Biomechanical analysis of lumbar interbody fusion with an anisotropic hyperelastic model for annulus fibrosis. Archive of Applied Mechanics, 83(4), 579-590.31. X.Q. Peng*, Z.Y. Guo, T.L. Du and W.R. Yu (2013). A simple anisotropic hyperelastic constitutive model for textile fabrics with application to forming simulation. Composites: Part B, 52, 275-281. 30. J. Alsayednoor, P. Harrison* and Z.Y. Guo. (2013). Large strain compressive response of 2-D periodic representative volume element for random foam microstructures. Mechanics of Materials, 66, 7-20.29. S.H. You and Z.Y. Guo* (2012). Immune algorithm embedded stochastic meshless method for structural reliability. Journal of Mechanical Engineering Science, 226(2), 456-465.28. B. Peng*, Y. Li, S. Liu, Z.Y. Guo and L. Ding (2012). The roles of crosslinks in the buckling behaviors and load transferring mechanisms of double-walled nanotubes under compression. Computational Material Science, 55, 95-99.27. E.T. Ooi, Z.J. Yang* and Z.Y. Guo (2012). Dynamic cohesive crack propagation modelling using the scaled boundary finite element method. Fatigue & Fracture of Engineering Materials & Structures, 35, 786-800.26. Q.H. Jebur, P. Harrrison*, Z.Y. Guo, G. Schubert, X. Ju, and V. Navez (2012). Characterisation and modelling of a transversely isotropic melt-extruded LDPE closed cell foam under uniaxial compression. Journal of Mechanical Engineering Science, 226(9), 2168-2177.25. P. Harrison*, F. Abdiwi, Z.Y. Guo, P. Potluri and W.R. Yu (2012). Characterising the shear-tension coupling and wrinkling behaviour of woven engineering fabrics. Composites Part A-Applied Science and Manufacturing, 43, 903-914.24. Z.Y. Guo*, X.H. Shi, X.Q. Peng and F.C. Caner (2012). Fibre-matrix interaction in the human annulus fibrosus. Journal of the Mechanical Behavior of Biomedical Materials, 5(1), 193-205.23. H.P. Chen*, Z.Y. Guo and X.M. Zhou (2012). Stress singularities of contact problems with a frictional interface in anisotropic composites. Fatigue & Fracture of Engineering Materials & Structures, 35, 718-731.22. F. Abdiwi, P. Harrison*, I. Koyama, W.R. Yu, A. C. Long, N. Corriea and Z.Y. Guo (2012). Characterising and modelling variability of tow orientation in engineering fabrics and textile composites. Composites Science and Technology, 72, 1034-1041.21. X.Q. Peng*, Y. Wang, Z.Y. Guo and S.Q. Shi (2011). Numerical validation of a fiber reinforced hyperelastic constitutive model for human intervertebral disc annulus fibrosus. Journal of Mechanics in Medicine and Biology, 11(1), 163-176.20. B. Peng, L. Ding and Z.Y. Guo* (2011). Design and modeling of carbon nanotube electromechanical switches for logic device application. Journal of Computational and Theoretical Nanoscience, 8(10), 1967-1972.19. X.Q. Peng*, Z.Y. Guo, Z.U. Rehman and P. Harrison (2010). A simple anisotropic fiber reinforced hyperelastic constitutive model for woven composite fabrics. International Journal of Material Forming, 3, 723-726.18. X.Q. Peng*, G. Liu and Z.Y. Guo (2010). Finite element contact analysis of a human sagittal knee joint. Journal of Mechanics in Medicine and Biology, 10(2), 225-236.17. B. Peng*, L. Ding and Z.Y. Guo (2010). Resonant modelling of two types of tunable carbon nanotube electromechanical oscillators. Micro & Nano Letter, 5(6), 365-369. 16. Z.Y. Guo*, S.H. You, X.P. Wan and N. Bicanic (2010). A FEM-based direct method for material reconstruction inverse problem in soft tissue elastography. Computers & Structures, 88(23-24), 1459-1468.15. Z.Y. Guo* and F.C. Caner (2010). Mechanical behaviour of transversely isotropic porous neo-Hookean solids. International Journal of Applied Mechanics, 2(1), 11-39.14. Z.Y. Guo*, F.C. Caner, X.Q. Peng and B. Moran (2008). On constitutive modelling of porous neo-Hookean composites. Journal of the Mechanics and Physics of Solids, 56(6), 2338-2357.13. Z.Y. Guo*, X.Q. Peng and B. Moran (2007). Mechanical response of neo-Hookean fiber reinforced incompressible nonlinearly elastic solids. International Journal of Solids and Structures, 44(6), 1949-1969. 12. Z.Y. Guo*, X.Q. Peng and B. Moran (2007). Large deformation response of a hyperelastic fiber reinforced composite: theoretical model and numerical validation. Composites Part A-Applied Science and Manufacturing, 38(8), 1842-1851.11. W. Ding, Z.Y. Guo* and R.S. Ruoff* (2007). Effect of cantilever nonlinearity in nanoscale tensile testing. Journal of Applied Physics, 101(3), 034316.10. F.C. Caner*, Z.Y. Guo, B. Moran, Z.P. Ba?ant and I. Carol (2007). Hyperelastic anisotropic microplane constitutive model for annulus fibrosus. Journal of Biomechanical Engineering, 129(5), 632-641.9. S. Lu, Z.Y. Guo, W. Ding and R.S. Ruoff* (2006). Analysis of a MEMS testing stage for tensile loading of nanostructures. Review of Scientific Instruments, 77(5), 056103. 8. S. Lu, Z.Y. Guo, W. Ding, D. Dikin, J. Lee and R.S. Ruoff* (2006). In-situ mechanical testing of templated carbon nanotubes. Review of Scientific Instruments, 77(12), 125101.7. Z.Y. Guo*, X.Q. Peng and B. Moran (2006). A composites-based hyperelastic constitutive model for soft tissue with application to the human annulus fibrosus. Journal of the Mechanics and Physics of Solids, 54(9), 1952-1971. 6. X.Q. Peng, Z.Y. Guo and B. Moran* (2006). An anisotropic hyperelastic constitutive model with fiber-matrix shear interaction for the human annulus fibrosus. Journal of Applied Mechanics, 73(5), 815-824. 5. Z.Y. Guo* and Z.P. Ba?ant (2006). Size effect on buckling strength of eccentrically compressed column with fixed or propagating transverse crack. International Journal of Fracture, 142(1-2), 151-162. 4. Z.P. Ba?ant*, Z.Y. Guo, H.D. Espinosa, Y. Zhu and B. Peng (2005). Epitaxially influenced boundary layer model for size effect in thin metallic films. Journal of Applied Physics, 97(7), 073506. 3. Z.P. Ba?ant* and Z.Y. Guo (2002). Size effect and asymptotic matching approximations in strain-gradient theories of microscale plasticity. International Journal of Solids and Structures, 39(21-22), 5633-5657. 2. Z.P. Ba?ant* and Z.Y. Guo (2002). Size effect on strength of floating sea ice under vertical line load. Journal of Engineering Mechanics, 128(3), 254-263. 1. A.J. Aref* and Z.Y. Guo (2001). Framework for finite-element-based large increment method for nonlinear structural problems. Journal of Engineering Mechanics, 127(7), 739-746.会议论文及发表演说1. 2009 年 5 月 18-21 日在乌克兰基普的“NATO 关于编织材料的高等研究会议”(NATO Advanced Research Workshop on “Textile Composites”)上做特邀报告。2. 2010 年 8 月 2-6 日在韩国汉城的“形状记忆聚合物和复合材料研究会议”(Workshop on Shape Memory Polymers and Composites)上做特邀报告。3. 2010 年 11 月 19-21 日在张家界的“计算方法国际会议”(2010 International Conference on Computational Methods)上做分会场特邀报告。2016-2020 中国复合材料学会第七届理事会,理事标签: 理学院 哈尔滨工业大学(深圳)
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