个人简历
个人简介Personal Profile周震寰,男,2019/12—至今 大连理工大学, 工程力学系, 教授2014/12—2019/12 大连理工大学, 工程力学系, 副教授2013/06—2014/12, 大连理工大学, 工程力学系, 讲师2011/07—2013/06, 大连理工大学, 船舶工程学院, 师资博士后,合作导师:黄一 教授2006/09—2011/07, 大连理工大学, 工程力学系, 博士(硕博连读), 导师:徐新生 教授、A.Y.T. Leung 教授(前香港力学学会会长)2002/09—2006/07, 大连理工大学, 工程力学系, 学士 研究成果&科研项目:发表学术论文70余篇,其中被SCI收录论文60余篇,包括国际权威期刊《Materials & Design》、《International Journal of Solids and Structures》、《Journal of Sound and Vibration》、《Engineering Fracture Mechanics》等。主持国家及省部级项目8项,参与国家及省部级项目10余项、香港政府项目10项,包括973项目课题、重点研究发计划课题、自然科学基金面上项目、青年项目等。详见个人学术主页。 学术兼职&荣誉:获中国青少年科技创新奖(全国1/100)、钱令希力学奖(青年教师类)等科研奖励。入选辽宁省百千万人才工程、大连市高层次人才创新支持计划(大连市青年科技之星)、大连理工大学“星海优青”等人才培育计划。担任辽宁省力学学会理事、辽宁省力学学会计算力学专业委员会委员、近20种SCI期刊审稿专家等学术兼职。 学生获奖:指导研究生获校优秀硕士论文(2人)、研究生国家奖学金(2人)、校博士生学术之星(1人)、钱令希奖学金(1人)。专利&软件著作权 一种用于海上风机钢桩漂浮运输的密封桩塞器 一种新型的轨道车辆吸能装置 一种表面纳米技术局部处理的薄壁吸能管 基于辛算法的功能梯度圆柱壳自由振动分析软件 基于辛算法的功能梯度圆柱壳屈曲分析软件 压电纤维增强材料圆柱壳振动分析软件 著作成果 理论力学解题指导 理论力学 授课信息 理论力学A /2019-2020 /秋学期 /64课时 /4.0学分 /1040131010 理论力学A /2019-2020 /秋学期 /64课时 /4.0学分 /1040131010 理论力学A /2019-2020 /秋学期 /64课时 /4.0学分 /1040131010 理论力学A /2018-2019 /秋学期 /64课时 /4.0学分 /1040131010 工程数值方法 /2017-2018 /夏学期 /36课时 /2.0学分 /1040141060 教学成果 运载工程与力学学部青年教师讲课竞赛二等奖 其他奖励 辽宁省第十二批“百千万人才工程”“万层次” (2018年) 第五批“星海学者”人才培育计划“星海优青” (2019年) 第二批星海学者人才培育计划——星海骨干 (2015年) 大连市青年科技之星 (2016年) 2016年度中国博士后科学基金资助者选介 (2017年) 钱令希力学奖学金 (2016年)
研究领域
研究方向:· 纳米化汽车吸能装置设计及优化· 复合材料壳体结构稳定性分析· 固体力学中的辛体系方法· 新型热声式超声换能器机理研究· 多物理场耦合材料断裂分析· 低维微纳米结构动力学分析"研究领域 (1)纳米化汽车吸能装置设计及优化(2)复合材料壳体结构稳定性分析(3)固体力学中的辛体系方法(4)新型热声式超声换能器机理研究(5)多物理场耦合材料断裂分析(6)低维微纳米结构动力学分析"
近期论文
[1]陈营利,李澄,周震寰,林志华,徐新生.基于表面纳米化新型吸能结构的设计方法[J],地震工程与工程振动,2019,39(6):143-147 [2]Yang, Zhenting,Yu, Xiong,Xu, Chenghui,Tong, Zhenzhen,Zhou, Zhenhuan,Xu, Xinsheng.A novel Hamiltonian-based isogeometric analysis of one-dimensional hexagonal piezoelectric quasicrystal with mode III electrically permeable/impermeable cracks[J],THEORETICAL AND APPLIED FRACTURE MECHANICS,2020,107 [3]Sun, Jiabin,Ni, Yiwen,Gao, Hanyu,Zhu, Shengbo,Tong, Zhenzhen,Zhou, Zhenhuan.Torsional Buckling of Functionally Graded Multilayer Graphene Nanoplatelet-Reinforced Cylindrical Shells[J],INTERNATIONAL JOURNAL OF STRUCTURAL STABILITY AND DYNAMICS,2020,20(1) [4]Ni, Yiwen,Zhu, Shengbo,Sun, Jiabin,Tong, Zhenzhen,Zhou, Zhenhuan,Xu, Xinsheng.Analytical buckling solution of magneto-electro-thermo-elastic cylindrical shells under multi-physics fields[J],COMPOSITE STRUCTURES,2020,239 [5]Xu, Chenghui,Rong, Dalun,Tong, Zhenzhen,Zhou, Zhenhuan,Hu, Jingjing,Deng, Zichen.Analytical modeling of a magnetically affected cantilever nanoplate-based mass detector[J],SUPERLATTICES AND MICROSTRUCTURES,2020,137 [6]Rong, D.L.,Xu, C.H.,Zhang, J.L.,Tong, Z.Z.,Zhou, Z.H.,Xu, X.S..A rational analytical approach for buckling analysis of orthotropic double-nanoplate-systems[A],2019,531(1) [7]Jia, J.F.,Lai, A.D.,Rong, D.L.,Zhou, Z.H.,Xu, X.S..Dynamic behaviors of cylindrical shells with geometric imperfection[A],2019,293 [8]周震寰,徐旺,邓子辰,徐新生,徐成辉.电磁弹性材料Ⅲ型界面断裂分析[J],西北工业大学学报,2018,36(6):1209-1215 [9]周震寰,李月杰,范俊海,隋国浩,张俊霖,徐新生.双功能梯度纳米梁系统振动分析的辛方法[J],应用数学和力学,2018,39(10):1159-1171 [10]Sun, Jiabin,Wang, Zhenyu,Zhou, Zhenhuan,Xu, Xinsheng,Lim, C. W..Surface effects on the buckling behaviors of piezoelectric cylindrical nanoshells using nonlocal continuum model[J],APPLIED MATHEMATICAL MODELLING,2018,59:341-356 [11]倪一文,仝真真,荣达伦,周震寰,徐新生.Thermal buckling of a functionally graded magneto-electric orthotropic cylindrical shell under the symplectic framework[A],13th World Congress on Computational Mechanics 2018,2018 [12]徐旺,荣达伦,廉增博,周震寰.含切口薄板结构断裂分析的辛离散有限元方法 [A],第十九届全国疲劳与断裂学术会议,2018 [13]周震寰,杨震霆,余雄,徐新生.含切口一维六方压电准晶材料的界面断裂分析 [A],第十九届全国疲劳与断裂学术会议,2018 [14]Xu, Chenghui,Xu, Wang,Rong, Dalun,Zhou, Zhenhuan,Leung, Andrew Y. T.,Xu, Xinsheng.A new coupled method for high-accuracy determination of fracture parameters of an interface V-notch in magneto-electro-elastic bimaterial[J],THEORETICAL AND APPLIED FRACTURE MECHANICS,2017,92:13-23 [15]Ni, Yiwen,Tong, Zhenzhen,Rong, Dalun,Zhou, Zhenhuan,Xu, Xinsheng.A new Hamiltonian-based approach for free vibration of a functionally graded orthotropic circular cylindrical shell embedded in an elastic medium[J],THIN-WALLED STRUCTURES,2017,120:236-248 [16]Yang, C. Y.,Tong, Z. Z.,Ni, Y. W.,Zhou, Z. H.,Xu, X. S..A Symplectic Approach for Free Vibration of Nanobeams Based on Nonlocal Elasticity Theory[J],JOURNAL OF VIBRATION ENGINEERING & TECHNOLOGIES,2017,5(5):441-450 [17]Xu, Xinsheng,Rong, Dalun,Lim, C. W.,Yang, Changyu,Zhou, Zhenhuan.An analytical symplectic approach to the vibration analysis of orthotropic graphene sheets[J],ACTA MECHANICA SINICA,2017,33(5):912-925 [18]周震寰,李月杰,范俊海,隋国浩,张俊霖.功能梯度纳米梁振动分析的辛方法[A],第三届中国国际复合材料科技大会,2017 [19]Xu, Xinsheng,Tong, Zhenzhen,Rong, Dalun,Cheng, Xianhe,Xu, Chenghui,Zhou, Zhenhuan.Fracture analysis of magnetoelectroelastic bimaterials with imperfect interfaces by symplectic expansion[J],APPLIED MATHEMATICS AND MECHANICS-ENGLISH EDITION,2017,38(8):1043-1058 [20]Zhou, Zhenhuan,Xu, Wang,Leung, Andrew Y. T.,Rong, Dalun,Xu, Xinsheng.A study of stress singularities arising at the multi-material interface in a V-notched bending plate[J],ENGINEERING FRACTURE MECHANICS,2017,180:179-194 [21]Zhou, Zhenhuan,Rong, Dalun,Yang, Changyu,Xu, Xinsheng.Rigorous vibration analysis of double-layered orthotropic nanoplate system[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2017,123:84-93 [22]周震寰,徐新生.含V型切口薄板结构断裂分析的辛离散有限元方法[A],2017 [23]周震寰,徐新生.A symplectic approach for thermal buckling of a FG orthotropic cylindrical shell[A],2017 [24]周震寰,徐新生.A new design principle of energy absorption devices aid surface self-nanocrystallization[A],Cross-Strait Symposium on Dynamical Systems and Vibration,2017 [25]徐新生,周震寰,武湛君.Excitation of plane Lamb wave in plate like structures under applied surface loading[J],Smart Materials and Structures,2017,27(2):25011-25020 [26]周震寰,徐新生.A new Hamiltonian-based approach to forced vibration of completely free orthotropic rectangular nanoplates resting on viscoelastic foundation[A],2017 [27]周震寰,徐新生.A Hamiltonian-based analytical method for fracture analysis of linear thermo-viscoelastic media[J],ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik,2017 [28]周震寰,徐新生.一种纳米板结构稳态强迫振动的解析方法[A],2017 [29]Xu, Chenghui,Rong, Dalun,Zhou, Zhenhuan,Xu, Xinsheng.A novel Hamiltonian-based method for two-dimensional transient heat conduction in a rectangle with specific mixed boundary conditions[J],JOURNAL OF THERMAL SCIENCE AND TECHNOLOGY,2017,12(2):1-11 [30]周震寰,徐新生.A rational analytical approach for buckling analysis of double-nanoplate-systems[A],2017 [31]Xu, Wang,Tong, Zhenzhen,Leung, Andrew Y. T.,Xu, Xinsheng,Zhou, Zhenhuan.Evaluation of the stress singularity of an interface V-notch in a bimaterial plate under bending[J],ENGINEERING FRACTURE MECHANICS,2016,168:11-25 [32]Sun, Jiabin,Lim, C. W.,Zhou, Zhenhuan,Xu, Xinsheng,Sun, Wei.Rigorous buckling analysis of size-dependent functionally graded cylindrical nanoshells[J],JOURNAL OF APPLIED PHYSICS,2016,119(21) [33]Sun, Jiabin,Sun, Jiabin,Xu, Xinsheng,Xu, Xinsheng,Lim, C. W.,Lim, C. W.,Xiao, Shaoyang,Zhou, Zhenhuan,Xiao, Shaoyang.Accurate thermo-electro-mechanical buckling of shear deformable piezoelectric fiber-reinforced composite cylindrical shells[J],COMPOSITE STRUCTURES,2016,141:221-231 [34]Qiu, W. B.,Zhou, Z. H.,Xu, X. S..The Dynamic Behavior of Circular Plates Under Impact Loads[J],JOURNAL OF VIBRATION ENGINEERING & TECHNOLOGIES,2016,4(2):111-116 [35]徐新生,程显贺,徐成辉,周震寰.含弱界面结构断裂分析中辛方法[J],大连理工大学学报,2016,56(2):111-117 [36]周震寰,徐新生.The finite element discretized symplectic method fordirect computation of SIF of piezoelectric materials[J],Engineering Fracture Mechanics,2016,162(1):21-37 [37]Xu, Chenghui,Zhou, Zhenhuan,Xu, Xinsheng.Evaluation of mode III interface cracks in magnetoelectroelastic bimaterials by symplectic expansion[J],JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES,2015,26(11):1417-1441 [38]Xu, Xinsheng,Cheng, Xianhe,Zhou, Zhenhuan,Xu, Chenghui.An analytical approach for the mixed-mode crack in linear viscoelastic media[J],EUROPEAN JOURNAL OF MECHANICS A-SOLIDS,2015,52:12-25 [39]Xu, C. H.,Zhou, Z. H.,Xu, X. S.,Leung, A. Y. T..Electroelastic singularities and intensity factors for an interface crack in piezoelectric-elastic bimaterials[J],APPLIED MATHEMATICAL MODELLING,2015,39(9):2721-2739 [40]Xu, C. H.,Zhou, Z. H.,Leung, A. Y. T.,Xu, X. S.,Luo, X. W..The finite element discretized symplectic method for composite mode III cracks[J],ENGINEERING FRACTURE MECHANICS,2015,140:43-60 [41]Zhou, Zhenhuan,Xu, Chenghui,Xu, Xinsheng,Leung, Andrew Yee-Tak.Finite-Element Discretized Symplectic Method for Steady-State Heat Conduction with Singularities in Composite Structures[J],NUMERICAL HEAT TRANSFER PART B-FUNDAMENTALS,2015,67(4):302-319 [42]周震寰,徐新生.Kirchhoff板断裂问题失稳辛离散有限元方法[J],计算力学学报,2015,32(z1):58-61 [43]徐新生,周震寰.碳纤维增强复合材料层裂机理和粘结强度评估[J],计算力学学报,2015,32(z1):26-29 [44]徐新生,周震寰.辛方法在圆柱壳自由振动的应用[J],计算力学学报,2015,32(z1):16-19 [45]Zhou, Zhenhuan,Leung, A. Y. T.,Xu, Xinsheng,Luo, Xiaowei.Mixed-mode thermal stress intensity factors from the finite element discretized symplectic method[J],INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,2014,51(21-22):3798-3806 [46]Xu, C. H.,Zhou, Z. H.,Xu, X. S.,Leung, A. Y. T..Fracture analysis of mode III crack problems for the piezoelectric bimorph[J],ARCHIVE OF APPLIED MECHANICS,2014,84(7):1057-1079 [47]Zhou, Z. H.,Leung, A. Y. T.,Xu, X. S..The finite element discretized symplectic method for interface cracks[J],COMPOSITES PART B-ENGINEERING,2014,58:335-342 [48]Leung, A. Y. T.,Zhou, Zhenhuan,Xu, Xinsheng.Determination of stress intensity factors by the finite element discretized symplectic method[J],INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES,2014,51(5):1115-1122 [49]周震寰,徐新生.Mode III Fracture Analysis for Piezoelectric Composites[A],2014,33-33 [50]周震寰,徐新生,徐成辉,李澄.双压电材料反平面断裂分析中的辛方法[J],固体力学学报,2013,S1:105-111 [51]Zhou, Z. H.,Xu, X. S.,Leung, A. Y. T..Hamiltonian analysis of a magnetoelectroelastic notch in a mode III singularity[J],ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems,2013,22(9) [52]Zhou, Z. H.,Xu, X. S..Hamiltonian analysis of a magnetoelectroelastic notch in a mode III singularity[J],ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems,2013,22(9) [53]程显贺,徐新生,周震寰.平面不可黏弹性结构断裂问题的辛方法[A],2013,174-178 [54]徐新生,胡俊林,贾宏志,周震寰,吴宇飞.辛奇异元方法与含裂纹结构加固问题分析[J],计算力学学报,2013,30(z1):58-61,83 [55]Zhou, Zhenhuan,Xu, Xinsheng,Leung, Andrew Y. T.,Huang, Yi.Stress intensity factors and T-stress for an edge interface crack by symplectic expansion[J],ENGINEERING FRACTURE MECHANICS,2013,102:334-347 [56]徐新生,周震寰.弹性圆柱壳问题中的哈密顿体系方法[J],东北大学学报(自然科学版),2013,34(S2):184-187 [57]周震寰,徐新生.热环境下工程结构的断裂分析[J],东北大学学报(自然科学版),2013,34(S2):258-262 [58]周震寰,徐新生.A Numerical Analytical Method for Singularity Problem in V-type Notch[J],Advanced Materials Research,2012,446(part 4):3613-3623 [59]Zhou Z.-H.,Xu X.-S.,Guan Z.-Q.,Leung Y.-T.A..Thermal fracture analysis for coolant circulation pumps of nuclear reactors under thermal shock loads[J],Binggong Xuebao/Acta Armamentarii,2011,32(SUPPL. 2):366-370 [60]Zhou, Zhen-huan,Xu, Xin-sheng,Leung, Andrew Yee-tak,Guan, Zhen-qun.Transient thermal stress intensity factors for Mode I edge-cracks[J],NUCLEAR ENGINEERING AND DESIGN,2011,241(9):3613-36232019.6 至今辽宁省力学学会理事(辽宁省力学学会) 2014.3 至今国际计算力学协会会员 2016.11 至今中国复合材料学会会员
