个人简介

2018—今，大连理工大学，工程力学系，副教授 2015—2018，特拉华大学，复合材料中心，助理研究员，合作导师：BingQing Wei教授 2011—2015，昆士兰科技大学，机械工程系，博士，导师：YuanTong Gu教授 2009—2011，犹他州立大学，机械与航空航天系，硕士，导师：YiBin Xue教授 2005—2009，大连理工大学，工程力学系，学士

研究领域

研究方向包括：多功能复合材料设计、复合材料制备工艺、材料基因工程等。

1，多功能纳米复合材料研制：使用多尺度模拟和纳米改性等方法，对聚合物基复合材料进行了修饰与改性，提升材料多功能特性，设计多种金属、复合材料构件，应用于具有飞行器； 2，复合材料结构力学响应多尺度分析：使用渐进展开分析方法，分析了多种材料损伤对复合材料整体结构力学响应的影响，并对具有丰富设计细节的树脂基复合材料进行了结构优化； 3，热塑性复合材料成型工艺研究：通过实验结合仿真手段，研究了成型工艺条件对热塑性复合材料构件性能的影响，制备了具有高刚度、高强度的热塑性复合材料结构件； 4，飞行器结构强度与轻量化设计：使用结构优化技术，对大型飞行器壁板结构进行正向创新设计，在实现结构减重的同时提高了结构在气密载荷等复杂工作条件下的力学性能。

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）

[1]张笑闻.Determining the fiber/matrix interfacial shear strength under cryogenic conditions by statistical...[J],POLYMER COMPOSITES,2022 [2]Zhang, Xiao-wen.Determining the fiber/matrix interfacial shear strength under cryogenic conditions by statistic...[J],POLYMER COMPOSITES,2022,42(1):439-449 [3]王博.Engineering the mechanical properties of CNT/PEEK nanocomposites[J],RSC Advances,2022,9(23):12836-12845 [4]宋志博.Improving the energy absorption capacity of square CFRP tubes with cutout by introducing chamfer[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2022,189(105994):1-17 [5]Song, Zhibo.Improving the energy absorption capacity of square CFRP tubes with cutout by introducing chamfer[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2022,189 [6]周才华.Improving the Energy Absorption of Cruciform With Large Global Slenderness Ratio by Kirigami Ap...[J],JOURNAL OF APPLIED MECHANICS TRANSACTIONS OF THE ASME,2022,86(8) [7]李桐.High-voltage and long-lasting aqueous chlorine-ion battery by virtue of "water-in-salt'' electrol...[J],ISCIENCE,2022,24(1) [8]穆林.Influence of water/acid washing pretreatment of aquatic biomass on ash transformation and slaggin...[J],ENERGY,2022,234 [9]Owuor, Peter Samora.Interconnecting Bone Nanoparticles by Ovalbumin Molecules to Build a Three-Dimensional Low-Densit...[J],ACS Applied Materials Interfaces,2022,10(48):41757-41762 [10]周才华.Low-Velocity Impact Response of Discontinuous Kirigami Cruciform Sandwich Panel[J],International Journal of Applied Mechanics,2022,11(5) [11]周才华.The Energy Absorption Behavior of Cruciforms Designed by Kirigami Approach[J],JOURNAL OF APPLIED MECHANICS TRANSACTIONS OF THE ASME,2022,85(12) [12]明世朝.The energy absorption of long origami-ending tubes with geomertical imperfections[J],THIN WALLED STRUCTURES,2022,161(107415):1-15 [13]Ming, Shizhao.The energy absorption of long origami-ending tubes with geometrical imperfections[J],THIN-WALLED STRUCTURES,2022,161 [14]Ming, Shizhao.The energy absorption of thin-walled tubes designed by origami approach applied to the ends[J],MATERIALS DESIGN,2022,192 [15]Zhao, Shi-Min.THE SUPERSYMMETRIC TWO-LOOP CORRECTIONS TO MUON MAGNETIC DIPOLE MOMENTS IN THE CP-VIOLATING MSS...[J],MODERN PHYSICS LETTERS A,2022,27(14) [16]任明法.Trans-scale analysis of composite overwrapped pressure vessel at cryogenic temperature[J],COMPOSITE STRUCTURES,2022,160:1339-1347 [17]Huang, Cheng.Trans-scale modeling framework for failure analysis of cryogenic composite tanks[J],COMPOSITES PART B ENGINEERING,2022,85:41-49 [18]Zhu, Jinmeng.Tuning the Dimensionality of Nano Ca(OH)(2) with Surfactants for Wall Painting Consolidation[J],ChemNanoMat,2022,5(9):1152-1158 [19]李桐.Understanding of Anion Transport in Polymer Electrolytes for Supercapacitors[J],ADVANCED THEORY AND SIMULATIONS,2022,2(2) [20]李桐.Achieving Self‐Stiffening and Laser Healing by Interconnecting Graphene Oxide Sheets with Amine...[J],Advanced Materials Interfaces,2022,5(20):1800932- [21]任明法.An integrated macro/micro-scale approach for in situ evaluation of matrix cracking in the polym...[J],COMPOSITE STRUCTURES,2022,216:201-212 [22]徐新生.An Optimal Design of the Two-Staged Square Sectional Combined Energy Absorption Structure with Lo...[J],ACTA MECHANICA SOLIDA SINICA,2022 [23]李航.A novel rechargeable metal halides battery with ethylene glycol cyclic sulfate electrolyte system[J],MATERIALS LETTERS,2022,282 [24]Cao, Guanglong.A Partitioning Method for Friction Stir Welded Joint of AA2219 Based on Tensile Test[J],Metals,2022,10(1) [25]李航.A novel type of chloride ion battery that can change the structure of electric vehicle[J],JOURNAL OF POWER SOURCES,2022,512 [26]Mao, Zebei.Carbon Nanotube Reinforced Poly-p-Phenylene Terephthalamide Fibers for Toughness Improvement: A...[J],ADVANCED THEORY AND SIMULATIONS,2022,3(10) [27]Zhang, Ke.Computational Design for the Damping Characteristics of Poly(ether ether ketone)[J],JOURNAL OF PHYSICAL CHEMISTRY B,2022,125(33):9588-9600 [28]Zhao, Hu.Construction of ethylene glycol organic sulfur ion battery system based on sulfur ions absorption...[J],MATERIALS LETTERS,2022,288 [29]Zhang, Ke.Mechanical Properties of Solution-Blended Graphene Nanoplatelets/Polyether-Ether-Ketone Nanocompo...[J],JOURNAL OF PHYSICAL CHEMISTRY B,2022,125(37):10597-10609 [30]Cristiano F Woellner.Mechanical properties of ultralow density graphene oxide/polydimethylsiloxane foams[J],MRS Advances,2022,3(1):61-66 [31]Chang, Xin.Micromechanical matrix failure analysis for unidirectional fiber-reinforced composites[J],THIN WALLED STRUCTURES,2022,141:275-282 [32]Huang, Baolin.Molecular dynamics simulations of adsorption and desorption of bone morphogenetic protein-2 on ...[J],Acta Biomaterialia,2022,80:121-130 [33]任明法.Molecular investigation on the compatibility of epoxy resin with liquid oxygen.[J],Theoretical and Applied Mechanics Letters,2022,10(1):38-45 [34]王博.Multiscale insights into the stretching behavior of Kevlar fiber[J],COMPUTATIONAL MATERIALS SCIENCE,2022,185 [35]王奇.Multiscale numerical and experimental investigation into the evolution of process-induced resid...[J],COMPOSITES PART A APPLIED SCIENCE AND MANUFACTURING,2022,135 [36]任明法.Numerical and Experimental Failure Analysis of Carbon Fiber-Reinforced Polymer-Based Pyrotechni...[J],International Journal of Aerospace Engineering,2022,2020 [37]任明法.Numerical optimization of soft-mold aided co-curing process of advanced grid-stiffened composit...[J],JOURNAL OF REINFORCED PLASTICS AND COMPOSITES,2022,34(21):1765-1778 [38]任明法.Numerical investigation into the buckling behavior of advanced grid stiffened composite cylindr...[J],JOURNAL OF REINFORCED PLASTICS AND COMPOSITES,2022,33(16):1508-1519 [39]王奇.Prediction of void growth and fiber volume fraction based on filament winding process mechanics[J],COMPOSITE STRUCTURES,2022,246 [40]王琦.Prediction and Compensation of Process-induced Distortions for L-shaped 3D Woven Composites[J],COMPOSITES PART A APPLIED SCIENCE AND MANUFACTURING,2022,141 [41]王文博.Research on Dual Structure Dynamic Mechanism Model of Population Flow in The Process of China's...[A],3rd International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM 2007),2022,5749-+ [42]Huang, Baolin.Rotation-induced secondary structure losses and bioactivity changes of bone morphogenetic prote...[J],APPLIED SURFACE SCIENCE,2022,511 [43]Yang, Hongmei.Rolling friction contact-separation mode hybrid triboelectric nanogenerator for mechanical ener...[J],Nano Energy,2022,47:539-546 [44]林皋.Seismic response of buried tunnel in halfspace or fullspace by a hybrid method[A],Proceedings of the 2nd Biennial European Joint Conference on Engineering Systems Design and Analysis. Part 1 (of 8),2022,64(7):21-26 [45]Zhang, Yuanyuan.Self-healable transparent polymer/salt hybrid adhesive via a ternary bonding effect[J],Journal of Materials Chemistry A,2022,8(41):21812-21823 [46]Yumin Chen.Single-molecule insights into surface-mediated homochirality in hierarchical peptide assembly[J],Nature Communications,2022,9(1):2711- [47]Tang, Xiaohan.Strain rate dependent behaviors of a hot isotropically processed Ti-6Al-4V: Mechanisms and mate...[J],Journal of Mechanical Science and Technology,2022,30(2):661-665 [48]Tang, Ming.Steered molecular dynamics characterization of the elastic modulus and deformation mechanisms o...[J],Journal of the Mechanical Behavior of Biomedical Materials,2022,86:359-367 [49]Zhou, Yilu.Spontaneous calcium signaling of cartilage cells: from spatiotemporal features to biophysical m...[J],FASEB JOURNAL,2022,33(4):4675-4687 [50]任明法.Structural optimization approach for specially shaped composite tank in spacecrafts[J],Journal of Mechanical Science and Technology,2022,29(4):1429-1435 [51]周才华.Effects of welding on energy absorption of kirigami cruciform under axial crushing[J],THIN WALLED STRUCTURES,2019,142(,SI):297-310 [52]Ming, Shizhao.Energy absorption of thin-walled square tubes designed by kirigami approach[J],INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES,2019,157:150-164 [53]任明法.Molecular investigation on the compatibility of epoxy resin with liquid oxygen.[J],Theoretical and Applied Mechanics Letters,2021,10(1):38-45 [54]张笑闻.Determining the fiber/matrix interfacial shear strength under cryogenic conditions by statistical...[J],Polymer Composites,2021 [55]王琦.Prediction and Compensation of Process-induced Distortions for L-shaped 3D Woven Composites[J],Composites Part A: Applied Science and Manufacturing,2021,141 [56]宋志博.Improving the energy absorption capacity of square CFRP tubes with cutout by introducing chamfer[J],International Journal of Mechanical Sciences,2021,189(105994):1-17 [57]明世朝.The energy absorption of long origami-ending tubes with geomertical imperfections[J],Thin-Walled Structures,2021,161(107415):1-15 [58]王博.Multiscale insights into the stretching behavior of Kevlar fiber[J],COMPUTATIONAL MATERIALS SCIENCE,2021,185 [59]Mao, Zebei.Carbon Nanotube Reinforced Poly-p-Phenylene Terephthalamide Fibers for Toughness Improvement: A...[J],ADVANCED THEORY AND SIMULATIONS,2021,3(10) [60]Tang, Ming.Steered molecular dynamics characterization of the elastic modulus and deformation mechanisms o...[J],JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS,2021,86:359-367