杨振宇，男，副教授，1980年9月出生。2001年毕业于北京航空航天大学飞行器设计与应用力学系，获学士学位；2004年毕业于北京航空航天大学固体力学专业，获硕士学位；2008 年毕业于中国科学院力学研究所固体力学专业，获博士学位。2008年1月至2009年12月在北京航空航天大学固体力学所从事博士后研究工作。2010年01月留校任教，现为北京航空航天大学固体力学所副教授、博士生导师，曾任飞行器结构强度系书记兼副主任。2018年聘为长聘副教授，2019年聘为北航宁波创新研究院特聘研究员。2014年入选北京市青年英才计划，2016年入选北航青年拔尖人才计划，2016年获“凡舟”奖教金二等奖，2020年获首届“范钦珊一流主讲教师成长基金”。主持承担国家自然科学基金4项，省部级项目20余项。在Nature, Nature Materials, CST, Carbon, IJSS, IJMS, Composites Part B, Composite Structures, Small等期刊上发表论文70余篇，被SCI他人引用超过1000次, H指数28。担任Nature出版集团旗下期刊Scientific Reports编委(Editorial Board Member)，International Journal of Smart and Nano Materials首届青年编委会委员，现为固体力学专业委员会复合材料专业组成员。

教育经历 (Education)

1997.09 – 2001.07 北京航空航天大学 飞行器设计与应用力学系 学士学位

2001.09 – 2004.03 北京航空航天大学 固体力学所  硕士学位

2004.03 – 2008.01 中国科学院力学研究所 非线性力学国家重点实验室 博士学位

 

工作经历 (Working Experience)

2008.03 – 2009.12北京航空航天大学 固体力学所  博士后

2010.01 – 2014.07 北京航空航天大学 讲师

2012.12 – 2013.3 香港城市大学 访问学者

2014.08 – 北京航空航天大学 副教授

2018.08 – 北京航空航天大学 长聘副教授

2019.08 – 北京航空航天大学 宁波创新研究院 特聘研究员

 

研究方向 (Research Interests)

       (1)  编织复合材料/结构力学行为的多尺度多场模拟

       (2)  基于3D打印的仿生复合材料的微结构设计及优化

       (3)  力学超材料的可编程化设计、实现与表征

       (4)  纳米-微米结构材料的力学性能的表征与数值模拟

 

代表性论文 (Selected Publications)

[1]   Qiu KL, Hou JP, Chen S, Li X, Yue YH, Xu B, Hu Q, Liu LM, Yang ZY, Nie A, Gao Y, Jin T, Wang J, Li YH, Wang YB, Tian YJ, Guo L. Self-healing of fractured diamond. Nature Materials. 2023, DOI: 10.1038/s41563-023-01656-4

[2]   李志男, 杨振宇*, 卢子兴. 随机纤维网络材料力学性能研究进展[J]. 航空制造技术, 2023, 66(15): 71-95.

[3]   Bao Q, Yang ZY*, Lu ZX. An improved pull-out model for the composites with curved reinforcement. International Journal of Mechanical Sciences, 2024, 262, 108733.

[4]   Wan L, Hu DY*, Wan M, Yang ZY*, Zhang H, Pi B. Lateral crushing behavior of tubular lattice structures with triply periodic minimal surface architectures. Thin-Walled Structures, 2023,189: 110905.

[5]   Hou J, Qiu K, Li F, Yang ZY, Yue Y*, Tian Y, Wang Z, Guo L. In situ observation of the pseudoelasticity of twin boundary. Journal of Materials Science & Technology, 2023, 166: 200-207.

[6]   田静萱，夏僮，杨振宇*, 贺小帆, 卢子兴, 贺自强. 基于纳米压痕试验的塑性本构参数反演方法研究, 固体力学学报，2023, DOI: 10.19636/j.cnki.cjsm42-1250/o3.2023.016.

[7]   Qian YX, Bao Q, Li ZN, Xia T, Yang ZY*, Lu ZX. Numerical investigation on the mechanical behaviors of 2D woven composites under complex in-plane stress states. Composite Structures, 2023, 315: 117008. 

[8]   Li ZN, Qian YX, Bao Q, Yang ZY*, Lu ZX. The mechanical behaviors of random curved fiber networks by numerical simulations. International Journal of Solids and Structures, 2023, 270, 112200.

[9]   Bao Q, Yang ZY*, Lu ZX. A nonlinear crack bridging model for the composites with curved reinforcement. Engineering Fracture Mechanics, 2023, 281, 109077.

[10]  Li YS, Hu DY*, Yang ZY*, Crashworthiness design of a sponge-inspired multicell tube under axial crushing, International Journal of Mechanical Sciences, 2023, 244, 108070. 

[11] Xia T, Xu SY, Yang ZY*, Lu ZX. An incremental elastic-plastic cohesive constitutive model with considering damage. SCIENCE CHINA Technological Sciences, 2023, 66, https://doi.org/10.1007/s11431-022-2314-3.

[12] 杨振宇, 卢子兴. 巧用体力与面力的变换求解非常体力弹性力学问题. 力学与实践, 2023, 45(3): 694-697.

[13] Bao Q, Cui SK, Yang ZY*, Lu ZX, He XF. Load transfer mechanisms in the platelets reinforced composites with considering the interphase related failure modes. International Journal of Mechanical Sciences, 2023, 239, 107888. 

[14] 陈国耀，黄丰，杨振宇，卢子兴，王浩然. 三维针刺复合材料参数化建模及力学性能仿真. 复合材料学报, 2022, 39(9): 1-12.

[15] 杨振宇，龚文弈，卢子兴. 梁在几种典型载荷作用下的弹性力学求解方法. 力学与实践, 2022, 44(6): 1-7.

[16] 杨振宇, 鲍强, 卢子兴. 平面问题中悬臂梁固支边界条件的简化方法. 力学与实践, 2022, 44(6): 1405-1411.

[17] 钱逸星, 杨振宇, 卢子兴. 纺织复合材料力学性能数值模拟方法研究进展[J]. 航空制造技术, 2022, 65(16): 135–151.

[18] Bao Q, Yang ZY*, Lu ZX, He XF, Effects of graphene thickness and length distribution on the mechanical properties of graphene networks: A coarse-grained molecular dynamics simulation. Applied Surface Science.  2021, 570, 151023. 

[19] Yafei Yin, Min Li, Zhenyu Yang, Yuhang Li*, Stretch-induced shear deformation in periodic soft networks. Extreme Mechanics Letters. 2021, 47, 101370.

[20] Cui Shaokang, Yang Zhenyu*, Lu Zixing, He Xiaofan, Numerical investigation on the enhanced damping behavior of bioinspired nacreous composites by introducing interlocked structure. Journal of the Mechanical Behavior of Biomedical Materials. 2021, 119, 104442.

[21] Huang YL, Yang ZY*, Lu ZX. Nanoindentation of bio-inspired graphene/nickel nanocomposites：a molecular dynamics simulation, Computational Material Science, 2021, 186, 109969.

[22] Zhang XJ, Wang J, Yang ZY (These authors contributed equally), Tang XK, Yue YH. Strong structural occupation ratio effect on mechanical properties of silicon carbide nanowires. Scientific Report. 2020, 10: 11389.

[23] Yue YH, Gao YF, Hu WT, Xu B, Wang J, Zhang XJ, Zhang Q, Wang YB, Ge BH, Yang ZY, Li ZH, Ying P, Liu XX, Yu DL, Wei B, Wang ZC, Zhou XF, Guo L, Tian YJ. Hierarchically structured diamond composite with exceptional toughness. Nature, 2020, 582(7812): 370.

[24] Wang QS, Li ZH, Zhang Y, Cui SK, Yang ZY*, Lu ZX, Ultra-low density architectured metamaterial with superior mechanical properties and energy absorption capability, Composites Part B: Engineering, 2020, 202,108379. 

[25] Zhang Y, Lu ZX, Yang ZY*, Zhang DH. Fracture Behavior of Fibrous Network Materials: Crack Insensitivity and Toughening Mechanism. International Journal of Mechanical Sciences, 2020,188, 105910. 

[26] Cui SK, Yang ZY*, Lu ZX. An analytical model for the bio-inspired nacreous composites with interlocked “brick-and-mortar” structures. Composites Science and Technology, 2020, 193: 108131. 

[27] Bao Q, Yang ZY*, Lu ZX. Molecular dynamics simulation of amorphous polyethylene (PE) under cyclic tensile-compressive loading below the glass transition temperature. Polymer, 2020, 186: 121968.

[28] Wang QS, Yang ZY*, Lu ZX*, Li Xiang. Mechanical responses of 3D cross-chiral auxetic materials under uniaxial compression. Materials & Design, 2020, 186: 108226.

[29] Zhang Y, Lu ZX, Yang ZY*, Zhang DH, Li JN, Shi JJ, Yuan ZS, Chen HK. Resilient carbon fiber network materials under cyclic compression. Carbon, 2019, 155: 344-352.

[30] Cui SK, Lu ZX, Yang ZY*. Effect of interlocking structure on mechanical properties of bio-inspired nacreous composites. Composite Structures, 2019, 226: 111260. 

[31] Li X, Yang ZY*, Lu ZX*. Design 3D metamaterials with compression-induced-twisting characteristics using shear–compression coupling effects. Extreme Mechanics Letters, 2019, 29: 100471.

[32] Li X, Yang ZY*, Lu ZX*. Novel Auxetic Structures with Enhanced Mechanical Properties, Extreme Mechanics Letters, 2019, 27: 59-65.

[33] Wang H, Lu ZX*, Yang ZY*. In-plane dynamic crushing behaviors of a novel auxetic honeycomb with two plateau stress regions, International Journal of Mechanical Sciences, 2019, 151: 746-759. 

[34] Wang H, Lu ZX, Yang ZY*, Li X. A novel re-entrant auxetic honeycomb with enhanced in-plane impact resistance. Composite Structures, 2018(208): 758-770. 

[35] Yin J*, Zhang DM, Xiang Y, Wei P, Yang ZY, et al. The influence of cross-sectional morphology on the compressive resistance of polymeric nerve conduits. Polymer, 2018(148): 93-100.

[36] Yang C, Lu ZX, Yang ZY. Robust optimal sensor placement for uncertain structures with interval parameters. IEEE Sensors Journal, 2018(18): 2031-2041.

[37] Yang C, Lu ZX, Yang ZY. Parameter identification for structural dynamics based on interval analysis algorithm, Acta Astronautica, 2018, 145: 131-140.

[38] Li X, Lu Zixing*, Yang Zhenyu*, Wang Qingsong, Zhang Yao. Yield surfaces of periodic honeycombs with tunable Poisson’s ratio. International Journal of Mechanical Sciences, 2018, 141: 290-302.

[39] Li X, Lu ZX, Yang ZY*, Yang C. Anisotropic in-plane mechanical behavior of square honeycombs under off-axis loading. Materials and Design, 2018(158): 88-97.

[40] Yao QX, Bao Q, Li XM, Wang H, Yang ZY, Shi XH*, Gao Y, Xu B. Determination of the packing model of a supramolecular nanofiber via mass-per-length measurement and de novo simulation. Nanoscale, 2018(10): 3990-3996.

[41] Zhang MY, Yang ZY*, Lu ZX, Liao BH, He XF. Effective properties and initial yield surfaces of two 3D lattice structures. International Journal of Mechanical Sciences, 2018, 138-139:146-158.

[42] Cai YK, Zhao Y, Ma XB*, Yang ZY, Ding Y. An Extended Model for Fatigue Life Prediction and Acceleration Considering Load Frequency Effect. IEEE ACCESS, 2018, 6: 21064-21074.

[43] Yang ZY*, Zheng LL, Yue YH, Lu ZX. Effects of twin orientation and spacing on the mechanical properties of Cu nanowires. Scientific Reports, 2017,7:10056.

[44] Li Xiang, Lu Zxing, Yang ZY*, Yang C. Directions dependence of the elastic properties of a 3D augmented re-entrant cellular structure, Materials & Design, 2017, 134:151-162.

[45] Zixing Lu, Qingsong Wang, Xiang Li, Yang ZY*. Elastic properties of two novel auxetic 3D cellular structures, International Journal of Solids and Structures, 2017, 124:46-56.

[46] Yang ZY, Zheng LL, Hu Dayong*. Atomistic study of the in-plane mechanical properties and deformation behaviors of nanohoneycomb Au, Computational Materials Science, 2017, 137: 179-185.

[47] Yue YH, Zhang Q, Zhang XJ, Yang ZY*, Yin PG and Guo L*. In situ observation of twin boundary sliding in single crystalline Cu nanowires, Small, 2017, 13(25):1604296.

[48] Zhang Y, Lu ZX, Yang ZY*, et al. Compression behaviors of carbon-bonded carbon fiber composites: experimental and numerical investigations. Carbon, 2017, 116:398-408.

[49] Gao D, Yang ZY, Zheng LL, Zheng K*. Piezoresistive effect of N-type <111>-oriented Si under large tension/compression. Nanotechnology, 2017, 28:095702.

[50] Yang ZY*, Wang DD, Lu ZX, et al. Atomistic simulation on the plastic deformation and fracture of bio-inspired graphene/Ni nanocomposites. Applied Physics Letters, 2016, 109: 191909.

[51] Xie F, Lu ZX, Yang ZY*, Hu WJ, Yuang ZS. Mechanical behaviors and molecular deformation mechanisms of polymers under high speed shock compression: A molecular dynamics simulation study. Polymer. 2016, 98: 294-304.

[52] Yang ZY*, Sun J, Lu ZX, Hu WJ, Strengthening mechanism of graphene/Ni nanolayered composite nanowires under uniaxial compression. Science China Physics Mechanics & Astronomy. 2016, 59(3):1-2.

[53] Yue YH, Zhang Q, Yang ZY, Gong Q, Guo Lin. Study of the mechanical behavior of radially grown fivefold twinned nanowires on the atomic scale. Small, 2016, 12(26): 3503-3509.

[54] Lu ZX, Li X, Yang ZY. Novel structure with negative Possion’s ratio and enhanced Young’s modulus. Composites Structures, 2016, 138: 243-252.

[55] Zhou YG*, Yang WW, Hua M, Yang ZY. The typical manners of dynamic crack propagation along the metal/ceramics interfaces: A molecular dynamics study. Computational Materials Science. 2016, 112: 27-33.

[56] Lu ZX*, Chen MY, Yang ZY. An Improved Pull-Out Model for the Carbon Nanotube/Nanofiber-Reinforced Polymer Composites with Interfacial Defects, Polymer Composites, 2016, 37(1): 229-240.

[57] Yuang ZS, Lu ZX*, Chen MY, Yang ZY, Xie F. Interfacial properties of carboxylic acid functionalized CNT/polyethylene composites: A molecular dynamics simulation study. Applied Surface Science. 2015, 351:1043-1052.

[58] Zhou YG, Chen YL, Liu B, Wang ST, Yang ZY, Hu M. Mechanics of nanoscale wrinkling of graphene on a non-developable surface, Carbon, 2014, 84: 263-271.

[59] Yang ZY*, Feng R, Su F, et al. Isotope and strain effects on thermal conductivity of silicon thin film. Physica E, 2014, 64: 204-210.

[60] Liu Q, Lu ZX, Zhu M, Yang ZY, et al. Experimental and FEM analysis of the compressive behavior of 3D random fibrous materials with bonded networks. Journal of Materials Science, 2014,49(3): 1386-1398.

[61] Zhou YG, Yang ZY*, Lu ZX, Dynamic crack propagation in copper bicrystals grain boundary by atomistic simulation. Materials Science and Engineering A, 2014, 599: 116-124.

[62] Liu Q, Lu ZX*, Zhu M, Yan ZS, Yang ZY, et al. Simulation of the tensile properties of silica aerogels: the effects of cluster structure and primary particle size. Soft Matter, 2014, 10(33): 6266-6277.

[63] Yang ZY*, Zhou YG, Lu ZX, Wang T, Crack propagation behaviors at Cu/SiC interface by molecular dynamics simulation. Computational Materials Science, 2014, 82: 17-25.

[64] Hu DY, Meng KP, Yang ZY*. Numerical investigation of the energy absorption characteristics of a fan-shaped deployable energy absorber. International Journal of Crashworthiness, 2014, 19(2): 126-138.

[65] Li D, Wang FC, Yang ZY, Zhao YP*. How to identify dislocations in molecular dynamics simulations? Sci China-Phys Mech Astron, 2014, 57: 2177-2187.

[66] 郭俊贤,王波, 杨振宇*, 石墨烯/Cu复合材料力学性能的分子动力学模拟. 复合材料学报，2014(1): 152-157.

[67] Yang ZY*, Lu ZX, Atomistic simulation of the mechanical behaviors of co-continuous Cu/SiC nanocomposites. Composites Part B, 2013, 44(1): 453-457.

[68] Yang ZY*, Jiao F F, Lu Z X, et al. Coupling effects of stress and ion irradiation on the mechanical behaviors of copper nanowires. Sci China-Phys Mech Astron, 2013, 56: 498-505.

[69] Lu ZX*, Zhou Y, Yang ZY. Multi-scale finite element analysis of 2.5D woven fabric composites under on-axis and off-axis tension. Computational Materials Science, 2013, 79: 485-494.

[70] Lu ZX*, Wang Chenyu, Xia B, Yang ZY. Effect of interfacial properties on the uniaxial tensile behavior of three-dimensional braided composites. Computational Materials Science, 2013, 79: 547-557.

[71] Zhou Y, Lu ZX*, Yang ZY. Progressive damage analysis and strength prediction of 2D plain weave composites. Composites Part B-Engineering, 2013, 47: 220-229.

[72] Lu ZX*, Zhang CG, Liu Q, Yang ZY, Surface effects on the mechanical properties of nanoporous materials. Journal of Physics D: Applied Physics. 2011, 44: 395404.

[73] Feng X, Lu ZX*, Yang ZY, Analysis on the variances of material and structural properties based on random field theory. Probabilistic Engineering Mechanics, 2011, 26(2): 222-230.

[74] Lu ZX*, Liu Q, Yang ZY, Predictions of Young’s modulus and negative Poisson’s ratio of auxetic foams. Physica Status Solidi B-Basic State Physics, 2011, 248(1): 167-174.

[75] Guo JH, Lu ZX*, Hai HT, Yang ZY, The behavior of two non-symmetrical permeable cracks emanating from an elliptical hole in a piezoelectric solid. European Journal of Mechanics A/Solids. 2010, 29(4): 654-663.

[76] Yang ZY, Lu ZX and Zhao YP*. Shape effects on the yield stress and deformation of silicon nanowires: A molecular dynamics simulation. Journal of Applied Physics. 2009, 106: 023537.

[77] Yang ZY, Lu ZX and Zhao YP*. Atomistic simulation on size-dependent yield strength and defects evolution of metal nanowires. Computational Materials Science. 2009, 46: 142-150.

[78] Guo JH, Lu ZX*, Han HT, Yang ZY. Exact solutions for anti-plane problem of two asymmetrical edge cracks emanating from an elliptical hole in a piezoelectric material. International Journal of Solids and Structures. 2009, 46(21): 3799-3809.

[79] Yang ZY and Zhao YP*. Molecular dynamics simulation of the immobilization of the rotary molecular motor. Journal of the Korean Physical Society. 2008, 52 (4): 1211-1216.

[80] Yang ZY, Wang ZQ and Zhao YP*. Adsorbate-induced surface stress of adatom adsorption on solid surface. International Journal of Nonlinear Sciences and Numerical Simulation. 2008, 9(4): 323-332.

[81] Yu YS, Yang ZY and Zhao YP*. Role of vertical component of surface tension of a droplet on the elastic deformation of PDMS surface. Journal of Adhesion Science and Technology. 2008, 22:687-698.

[82] Yang ZY and Zhao YP*. Adsorption of His-tagged peptide to Ni, Cu and Au (100) surfaces: Molecular dynamics simulation. Engineering Analysis with Boundary Elements, 2007, 31: 402-409.

[83] Yang ZY and Zhao YP*. Size-dependent elastic properties of Ni nano-films by molecular dynamics simulation. Surface Review and Letters, 2007, 14:661-665.

[84] Yang ZY and Zhao YP*. QM/MM and classical molecular dynamics simulation of His-tagged peptide immobilization on nickel surface. Materials Science and Engineering A, 2006, 423: 84–91.

[85] 王涛, 卢子兴, 杨振宇*. Cu/Ni多层纳米线力学性能尺寸效应的分子动力学模拟, 计算力学学报, 2011, 28, Sup:147-151.

[86] 杨振宇*, 俸翔, 苏洲, 卢子兴, 范锦鹏. 2.5D编织复合材料细观结构及弹性性能. 宇航材料工艺, 2010,40(2):67-71.

授权专利(Grated Patents)：

(1)   杨振宇，王欢，卢子兴.  一种拉胀多胞结构及吸能结构部件, ZL 201810809469.8

(2)   杨振宇，王青松，李响，卢子兴. 一种基于3D打印的三维拉胀多胞结构, ZL 201710613345.8

(3)   杨振宇，张鸣扬，卢子兴. 一种预测周期性点阵材料屈服面的分析方法, ZL 201710611974.7

(4)   杨振宇，张兆杭，崔少康，卢子兴. 一种模拟编织复合材料孔隙缺陷随机分布的方法, ZL 201910939599.8

 

部分主持或参与项目（Fundings）

 

    1. 国家自然科学基金面上项目，基于新型点阵结构的互穿相复合材料强韧化机理研究，2023-2026，主持；（在研）

    2. 领域基金重点项目（子课题），***力学超材料设计及在可变形机翼中的应用，2021-2023，主持；（在研）

   3. 国家自然科学基金面上项目，梯度互锁叠层仿生复合材料强韧化机制研究， 2020-2023，主持；（在研）

   4. 基础加强计划重点基础研究项目（子课题）， **本构关系与疲劳性能力学模型，2019-2022，主持；（在研）                

   5. 国防科技重点实验室基金项目，梯度碳纤维网状材料高温力学及其热物性能研究，2019-2020，主持；（结题）

   6. 基础加强计划重点基础研究项目（子课题），***失效机理及***评估方法研究，2019-2024，参加；（在研）

   7. 国家自然科学基金面上项目，仿生石墨烯/金属纳米层状复合材料的强韧化机理研究，2017-2020，主持；（结题）

   8. 国家自然科学基金重点项目（子课题），孔隙介质的力学与输运性能研究，2010-2013，子课题负责人；（结题）

   9. 国家自然科学基金青年基金，钒及钒铁合金的多缺陷演化和损伤机制研究，2011-2013，负责人。（结题）

会议论文（Conference Papers）

1.     Yang ZY, Ren Q and Zhao YP*. Molecular dynamics simulation of the bio-adhesion in molecular motors. 2005 IEEE International Conference on Robotics and Biomimetics, Hongkong, 2006: 352-355.

2.     Yang ZY*, Lu ZX. Molecular Dynamics Simulation of Mechanical Behaviors of Cu/SiC nanocomposites. 18^th International Conference on Composite Materials (ICCM18), Jeju, Korea, 2011.

3.     Yang ZY*, Study of Deformation and Failure Mechanisms in Cu/SiC Nanocomposites, 19^th International Conference on Composite Materials (ICCM19), Montreal Cannada, 2013.

4.     Liao Q, Yang ZY*, Lu ZX, Feng X. Prediction of the mechanical behaviors of composites bolts, Franco-Chinese Symposium on Damage and Fracture of Composite Structures: Assessment and Monitoring, Tarbes, France, 2015.

5.     Yang ZY*, Sun J, Lin GP. Graphene/nickel Nanolayered Composite Nanowires Under Uniaxial Compression: A Molecular Dynamics Simulation Study. 20^th International Conference on Composite Materials (ICCM20), Copenhagen, Denmark, 2015.

6.     Yang ZY*, Wang DD, Lu ZX. Strengthening mechanism of graphene/metal nanolayered composites, 17^th European Conference on Composites Materials (ECCM17), Munich, Germany, 2016.

7.     Cui SK, Yang ZY*, Lu ZX. 18^th European Conference on Composites Materials (ECCM18), Athens, Greek, 2018.

8.     Cui SK, Yang ZY*, Lu ZX. 22^th International Conference on Composite Materials (ICCM22), Melbourn, Australia, 2019.

 

联系方式(Contact Information)

 

Email: zyyang@buaa.edu.cn

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