杨帆
教授,博士生导师,力学学科岗位责任教授
同济大学航空航天与力学学院
电子邮箱/Email:fanyang@tongji.edu.cn
电话/Telephone:021-65983267
1999.09-2004.07 清华大学/Tsinghua University 工程力学 学士/ B.Sc.
2004.09-2005.12 清华大学/Tsinghua University 固体力学 硕士/ M.Phil.
2005.12-2009.07 清华大学/Tsinghua University 固体力学 博士/Ph.D.
2009.08-2011.07,美国俄亥俄州立大学/Ohio State University,纳米科技中心,博士后/Postdoc
2011.08-2014.03,加拿大多伦多大学/University of Toronto,机械工程系,博士后/Postdoc
2015.08-2015.10,美国休斯敦大学/University of Houston,机械工程系,访问学者/Visiting Scholar
2014.04-2019.12,同济大学/Tongji University,航空航天与力学学院,副研究员/Associate Professor
2020.01-至今,同济大学/Tongji University,航空航天与力学学院,教授/ Professor
1.轻质结构的承载和吸能性能/ Load-bearing and energy absorption properties of lightweight structures
轻质材料和结构的结构功能一体化设计,仿生、仿微材料和结构的设计、制备和性能表征,轻质材料和结构变形模式转变机理,复杂结构承载、吸能、减振多功能设计和多目标优化方法研究。率先建立了充填薄壁锥形管的渐进式折叠变形的压缩力理论模型,提出了适应倾斜载荷的吸能结构一般性设计方法,揭示了仿生、仿微异构点阵材料承载、吸能性能与细观结构关系。
2.先进金属材料的变形与破坏行为/ Mechanical behavior of advanced metallic materials
从原子尺度探究纳晶金属变形与破坏行为,建立了基于晶界机制的表征纳晶金属韧脆转变的新理论,揭示了晶粒转动行为并探讨了尺度相关性,发现了分子动力学模拟固体变形的现有方法中能量不守恒问题并提出了改进方案。
3.其他
喷丸强化与喷丸成形力学机理/ Mechanisms of shot peening and peen forming
封装电路板的热应力可靠性/ Thermal stresses in electronic packaging
生物组织力学性能/ Mechanical properties of biomaterials
聚合物纳米超薄薄膜的力学性能/ Mechanical behavior of ultra-thin polymer films
多学科优化/Multidisciplinary optimization
材料工程力学前沿导论/Introduction to the Frontiers of Materials Engineering Mechanics
三维建模与网格划分/3D Modeling and Meshing
工业装备虚拟仿真技术/Modelling and Simulations in Industry
三维建模与网格划分上机实习/Practice of 3D Modeling and Meshing
理论力学/ Classical Mechanics
塑性力学/Plastic Mechanics
1.Yijie Bian, Ruicheng Wang, Fan Yang, Puhao Li, Yicheng Song, Jiemin Feng, Wenwang Wu, Ziyong Li, Yang Lu. Mechanical properties of internally hierarchical multiphase lattices inspired by precipitation strengthening mechanisms. ACS Applied Materials & Interfaces, 2023.
2.Peng Wang, Fan Yang, Dongheng Ru, Bailin Zheng, Hualin Fan. Additive-manufactured hierarchical multi-circular lattice structures for energy absorption application. Materials and Design, 210, 110116, 2021.
3.Fan Yang, Hualin Fan, Shaker A. Meguid. Analytical, Numerical and Experimental Studies of the Effect of Foam-Filling on Collapse Mode Transition of Thin-Walled Circular Columns Under Axial Compression. International Journal of Mechanical Science, 150, 665-676, 2019.
4.Fan Yang, Zheng Zhong. On the energy conservation during the active deformation in molecular dynamics simulations. Journal of Mechanics and Physics in Solids, 77, 146-157, 2015.
5.Fan Yang, Wei Yang. Crack growth versus blunting in nanocrystalline metals with extremely small grain size. Journal of Mechanics and Physics in Solids, 57(2), 305-324, 2009.
2023
1.Bian Y, Wang R, Yang F, Li P, Song Y, Feng J, Wu W, Li Z, Lu Y. Mechanical properties of internally hierarchical multiphase lattices inspired by precipitation strengthening mechanisms. ACS Applied Materials & Interfaces, 2023. https://doi.org/10.1021/acsami.2c20063 (Supplementary Cover)
2.Li P, Yang F, Bian Y, Zhan S, Wang L. Design of lattice materials with isotropic stiffness through combination of two complementary cubic lattice configurations. Acta Mechanica, 2023. https://doi.org/10.1007/s00707-023-03480-y
3.Li P, Yang F, Wang P, Zhao J, Zhong Z. A novel design scheme for acoustic cloaking of complex shape based on region partitioning and multi-origin coordinate transformation. Applied Mathematics and Mechanics (English Edition). 43:1641–1656, 2022.
4.Wang P, Yang F, Fan H, Lu G. Bio-inspired multi-cell tubular structures approaching ideal energy absorption performance. Materials & Design 225:111495, 2023.
5.Wang P, Yang F, Li P, Zhang W, Lu G, Fan H. Bio-inspired vertex modified lattice with enhanced mechanical properties. International Journal of Mechanical Sciences 244:108081, 2023.
6.Zhang W, Yang F, Zhang S, Bian Y, Wang P, Meguid SA. Comprehensive crashworthiness studies of novel alternately-assembled multi-frusta structures for energy absorption applications. International Journal of Structural Stability and Dynamics, 23(2):2350023, 2023.
7.Li L, Yang F, Wang P, Guo Z. A new hybrid lattice structure with improved modulus, strength and energy absorption properties. Science China Technological Sciences, 2023. https://doi.org/10.1007/s11431-022-2199-5.
8.Wang L, Hu M, Zhong Z, Yang F. Stabilized lagrange interpolation collocation method: a meshfree method incorporating the advantages of finite element method. Computer Methods in Applied Mechanics and Engineering, 404:115780, 2023.
9.Hu M, Wang L, Yang F, Zhou Y. Weighted radial basis collocation method for the nonlinear inverse helmholtz problems. Mathematics. 11(3):662, 2023.
2022
1.Li L, Yang F, Li P, Wu W, Wang L. A novel hybrid lattice design of nested cell topology with enhanced energy absorption capability. Aerospace Science and Technology, 128(345):107776, 2022.
2.Zhang S, Yang F, Li P, Bian Y, Zhao J, Fan H. A topologically gradient body centered lattice design with enhanced stiffness and energy absorption properties. Engineering Structures, 263(9-10):114384, 2022.
3.Wang P, Yang F, Lu G, Bian Y, Zhang S, Zheng B, Fan H. Anisotropic compression behaviors of bio-inspired modified body-centered cubic lattices validated by additive manufacturing. Composites Part B Engineering, 234:109724, 2022.
4.Li P, Yang F, Wang P, Zhao J, Zhong Z. A novel design scheme for acoustic cloaking of complex shape based on region partitioning and multi-origin coordinate transformation. Applied Mathematics and Mechanics, 43(11):1641-1656, 2022.
5.Liu Y, Yang F, Zhang X, Zhang J, Zhong Z. Crack propagation in gradient nano-grained metals with extremely small grain size based on molecular dynamic simulations. International Journal of Fracture, 233:71–83, 2022.
6.Qiu L, Yang F, Zhang Z, Zhao J. Evaluating the J-integral of mode I crack in gradient nanocrystalline metals with residual stress induced by surface mechanical treatment. Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, 236(12):6760–6772, 2022.
7.Wang P, Yang F, Zhao J. Compression behaviors and mechanical properties of modified face-centered cubic lattice structures under quasi-static and high-speed loading. Materials, 15(5):1949, 2022.
8.Bian Y, Yang F, Zhang S, Chen M, Song Y. Similarities of the mechanical responses of body-centered cubic lattice structures with different constituent materials under compression. JOM, 74:1774–1783, 2022.
9.Qian S, Ni Y, Gong Y, Yang F, Tong Q. Higher damping capacities in gradient nanograined metals. Nano Letters 22(4): 1491–1496. 2022.
10.杨帆, 卞奕杰, 王鹏, 李浦昊, 张思远, 范华林. 界面增强多晶点阵结构的耐撞吸能性能. 高压物理学报, 36(2): 024201, 2022. (封面)
11.张振楠, 杨帆, 王莉华. 含中心裂纹梯度纳晶金属的数值模拟. 力学季刊, 43(1):75-83, 2022.
2021
1.Wang P, Yang F, Ru D, Zheng B, Fan H, Additive-manufactured hierarchical multi-circular lattice structures for energy absorption application. Materials and Design, 210:110116, 2021.
2.Li P, Yang F, Bian Y, Zhang S, Wang L, Deformation pattern classification and energy absorption optimization of the eccentric body centered cubic lattice structures. International Journal of Mechanical Sciences, 212:106813, 2021.
3.Wang P, Yang F, Li P, Zheng B, Fan H, Design and additive manufacturing of a modified face-centered cubic lattice with enhanced energy absorption capability. Extreme Mechanics Letters, 47:101358, 2021.
4.Bian Y, Yang F, Li P, Wang P, Li W, Fan H, Energy absorption properties of macro triclinic lattice structures with twin boundaries inspired by microstructure of feldspar twinning crystals. Composite Structures, 271(9-10):114103, 2021.
5.Zhang J, Yang F, Liu Y, Zhong Z, Zhao J, On the deformation-induced grain rotations in gradient nano-grained copper based on molecular dynamics simulations. Nanotechnology Reviews, 10(1):87-98, 2021.
6.Li W, Fan H, Bian Y, Yang F, Plastic deformation and energy absorption of polycrystalline-like lattice structures. Materials and Design, 198(1):109321, 2021.
7.Song C, Zhao J, Ma X, Zhang M, Yuan W, Yang F, Wang Z, Zhang X, Pan Y. Multi-frequency sound energy harvesting using Helmholtz resonators with irradiated cross-linked polypropylene ferroelectret films. AIP Advances 11(11):115002, 2021.
8.Liu Y, Wang L, Zhou Y, Yang F. A stabilized collocation method based on the efficient gradient reproducing kernel approximations for the boundary value problems. Engineering Analysis with Boundary Elements 132(1-4):446-459, 2021.
9.Wang L, Liu Y, Zhou Y, Yang F. A gradient reproducing kernel based stabilized collocation method for the static and dynamic problems of thin elastic beams and plates. Computational Mechanics 68(1–4):1-31, 2021.
10.J Zhao, W Yuan, F Yang, Z Zhong. Valley-chiral edge states of antisymmetric plate wave in phononic crystals with linear defect. Acta Mechanica Solida Sinica 34:810–819, 2021.
2020
1.Bian Y, Li P, Yang F, Wang P, Li W, Fan H, Deformation mode and energy absorption of polycrystal-inspired square-cell lattice structures. Applied Mathematics and Mechanics, 41:1561–1582, 2020.
2.Wang P, Bian Y, Yang F, Fan H, Zheng B, Mechanical properties and energy absorption of FCC lattice structures with different orientation angles. Acta Mechanica, 231: 3129–3144, 2020.
3.Wang P, Zhang Y, Yang F, Tian K, Zhao Q, Fan H, Energy absorption of thin-walled circular tubes with gradient thickness under oblique loads. Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science, 203-210:234, 2020.
4.Tian K, Zhang Y, Yang F, Zhao Q, Fan H, Enhancing Energy Absorption of Circular Tubes under Oblique Loads through Introducing Grooves of Non-Uniform Depths. International Journal of Mechanical Science, 166:105239, 2020.
5.Zhang Z, Yang F, Liu Y, Wang L, J-integral evaluation of a mode I crack in gradient nanocrystalline metals. Materials Today Communications, 25(5):101328, 2020.
6.杨帆, 刘亚平, 张家瑞, 仲政. 金属玻璃在不同温度下应力晶化行为的分子动力学模拟研究. 力学季刊, 41:613-621, 2020.
2019及以前/Before 2019
7.Yang F, Fan H, Meguid SA. Effect of foam-filling on collapse mode transition of thin-walled circular columns under axial compression: analytical, numerical and experimental studies. International Journal of Mechanical Science, 150:665-676, 2019.
8.Liu Y, Yang F, Zhang J. Effects of the grain size gradient on the microstructural evolution in gradient nano-grained copper with initial central crack. Material Design & Processing Communications, 2(1):e122, 2019.
9.Li Z, Yang F, Gao Y. Numerical simulation of derusting treatment of steel parts by shot blast. CMES, 120:157-175, 2019.
10.Tong J, Xin YF, Xu X, Yang F, Zhang Z. Effect of diabetes mellitus on the dissection properties of the rabbit descending thoracic aortas. Journal of Biomechanics, 100:109592, 2019.
11.Li W, An X, Zheng Q, Yang F, Fan H. Hierarchical design, manufacture and crushing behaviors of CFRP tubular energy absorbers. Thin-Walled Structures, 140:416–425, 2019.
12.杨帆,王鹏,范华林,仲政. 薄壁管状吸能结构的吸能性能及变形模式的理论研究进展. 力学季刊. 39:663-680, 2018.
13.Fan H, Luo Y, Yang F, Li W, Approaching perfect energy absorption through structural hierarchy. International Journal of Engineering Science, 130:12-32, 2018.
14.Yang F, Wang M, Hassan MTZ, Meguid SA, Hamouda AMS. Effect of interfacial friction and fold penetration on the progressive collapse of foam-filled frustum using kinematically admissible model. International Journal of Crashworthiness, 23(5):581-592, 2018.
15.Yang F, Meguid SA, Hamouda AMS. Kinematically admissible folding mechanisms: for the progressive collapse of foam filled conical frusta. International Journal of Mechanics and Materials in Design, 14:105–126, 2018.
16.杨帆, 刘亚平. 聚合物整体灌装电路板热应力分析. 电子器件, 41(6), 2018.
17.刘亚平, 杨帆. 基于细观力学方法的底部充填封装芯片接合层的热应力计算. 力学季刊, 39(1):39-48, 2018.
18.Li Z, Yang F. Grain rotations during uniaxial deformation of gradient nano-grained metals using crystal plasticity finite element simulations. Extreme Mechanics Letters, 16:41–48, 2017.
19.Tong J, Yang F, Li X, Xu X, Wang GX. Mechanical Characterization and Material Modeling of Diabetic Aortas in a Rabbit Model. Annals of Biomedical Engineering, 46:1-14, 2017.
20.Yang F, Gao Y. Predicting the peen forming effectiveness of Ti-6Al-4V strips with different thicknesses using realistic finite element simulations. Journal of Engineering Materials and Technology, 138(1):011004, 2016.
21.Meguid SA, Yang F, Hou P. Crush behaviour of foam-filled thin-walled conical frusta: analytical, numerical and experimental studies. Acta Mechanica, 227(12):3391-3406, 2016.
22.黄河, 杨帆, 高玉魁. 喷丸除锈过程及效果的数值模拟研究表面技术. 45(11):194-201, 2016.
23.Yang F, Zhong Z. On the energy conservation during the active deformation in molecular dynamics simulations. Journal of Mechanics and Physics in Solids, 77:146-157, 2015.
24.Yang F, Chen Z, Meguid SA. Effect of initial surface finish on effectiveness of shot peening treatment using enhanced periodic cell model. International Journal of Mechanics and Materials in Design, 11(4):463-478, 2015.
25.Meguid SA, Yang F, Verberne P. Progressive collapse of foam-filled conical frustum using kinematically admissible mechanism. International Journal of Impact Engineering, 82:25-35, 2015.
26.Chen Z, Yang F, Meguid SA. Multi-level modeling of woven glass/epoxy composite for multilayer printed circuit board applications. International Journal of Solids and Structures, 51(21-22):3679-3688, 2014.
27.Chen Z, Yang F, Meguid SA. Realistic finite element simulations of arc-height development in shot-peened Almen strips. ASME Journal of Engineering Materials and Technology, 136(4):041002, 2014.
28.Meguid SA, Chen Z, Yang F. Effective mitigation of shock loads in embedded electronic packaging using bilayered potting materials. ASME Journal of Electronic Packaging, 136(4):041005, 2014.
29.Yang F, Chen Z, Meguid SA. 3D FE modeling of oblique shot peening using a new periodic cell. International Journal of Mechanics and Materials in Design, 10(2):133-144, 2013,
30.Yang F, Meguid SA. Efficient multi-level modeling technique for determining effective board drop reliability of PCB assembly. Microelectronics Reliability, 53(7): 975-984, 2013,
31.Zhang N, Yang F, Shen C, Castro J, Lee LJ. Particle erosion on carbon nanofiber paper coated carbon fiber/epoxy composites. Composites part B, 54:209-214, 2013.
32.Zhang N, Yang F, Guerra D, Shen C, Castro J, Lee LJ. Enhancing particle erosion resistance of glass-reinforced polymeric composites using carbon nanofiber-based nanopaper coatings. Journal of Applied Polymer Science, 129(4):1875-1881, 2013.
33.Zhang N, Yang F, Li L, Shen C, Castro J, Lee LJ. Thickness effect on particle erosion resistance of thermoplastic polyurethane coating on steel substrate. Wear, 303(1-2):49-55, 2013,
34.Yang F, Ghosh S, Lee LJ. Molecular dynamics based size and rate dependent constitutive model of polystyrene thin films. Computational Mechanics, 50(2):169-184, 2012.
35.Yang F, Yang W. Crack growth versus blunting in nanocrystalline metals with extremely small grain size. Journal of Mechanics and Physics in Solids, 57(2):305-324, 2009.
36.Yang F, Yang W. Kinetics and size effect of grain rotations in nanocrystals with rounded triple junctions. Scripta Materialia, 61(9):919-922, 2009.
37.Yang F, Yang W. Brittle versus ductile transition of nanocrystalline metals. International Journal of Solids and Structures, 45(13):3897-3907, 2008.
38.Zhang X, Ma N, Yang F, Li Z, Yang W. Experimental measurements of the biomechanical properties of cardiac tissues. Journal of Tsinghua University (Science and Technology), 46(11):1941-1948, 2006.
39.杨帆, 杨卫. 从苍蝇与物面的触粘看尺度效应. 力学与实践, 04:12-14, 2004.
1.Fan Yang, Zhengmiao Guo, Jinfeng Zhao, Pengfei Li. Sound absorption and load bearing integrated structure and preparation method thereof. PCT/CN2022/122037, 12.10.2022. US Patent, 37 CFR 1.63
2.Fan Yang, Peng Wang. Anti-collision energy absorption device based on detachable hoop ring reinforcement and conical pipe fitting. Patent. LU501537, Luxembourg, le 23/08/2022.
3.杨帆, 李鹏飞, 赵金峰, 卞奕杰, 郭正淼. 基于形状拆分和多中心局部坐标变换的任意形状声学斗篷设计方法. 发明专利, 202210296795.X
4.杨帆, 李鹏飞, 赵金峰, 郭正淼, 卞奕杰. 一种适应不同波传播方向的声学斗篷坐标变换设计方法. 发明专利, 202210296788.X
5.杨帆, 郭正淼, 卞奕杰, 赵金峰, 李鹏飞. 一种基于带孔实心杆的吸声承载一体化结构及其制备方法. 发明专利, 202210361589.2
6.杨帆, 赵金峰, 郭正淼, 卞奕杰, 李鹏飞. 一种带孔空心杆和基于带孔空心杆的吸声结构. 实用新型专利, ZL202220839883.5,授权日: 2022-12-02
7.杨帆, 田坤, 张媛, 赵琦. 一种用于薄管结构倾斜加载的实验台装置. 实用新型专利, ZL201920429552.2,授权日: 2020-01-10
8.杨帆,王鹏, 一种基于可拆卸箍环增强和锥形管件的防撞吸能装置, 发明专利, 201910260804.8
9.杨帆,童建华,刘亚平, 李哲, 一种多管组合式缓冲防撞装置, 发明专利, 201711268893.8
10.杨帆,李哲,刘亚平, 统计模拟过程中体积去除量的有限元后处理软件V1.0, 软件著作权,软著登字1623944号, 2017.02.10
11.杨帆,李哲,刘亚平, 统计界面损失比率的有限元后处理软件V1.0, 软件著作权,软著登字1623528号, 2017.02.10
12.杨帆,统计ABAQUS结果场变量沿指定方向分布的平均值和标准方差软件,软件著作权,软著登字1340875号, 2016.06.30
13.杨帆,基于变形过程中能量守恒原理对LAMMPS源代码的修正软件,软件著作权,软著登字1340878号, 2016.06.30
14.杨帆,无定形态聚苯乙烯高分子模拟构型生成软件,软件著作权,软著登字1340880号, 2016.06.30
15.杨帆,高玉魁,黄河,统计指定表面粗糙度的有限元后处理软件,软件著作权,软著登字1233965号, 2016.03.16
16.杨帆,高玉魁,黄河,指定线、面或体积区域灵活提取结果场变量的有限元后处理软件,软件著作权,软著登字1234596号, 2016.03.17
17.杨帆,李哲,分子动力学系统的分层均方位移和平均位移计算软件,软件著作权,软著登字1235342号, 2016.03.17
1.广义喷丸法生成的梯度纳晶金属的断裂行为的建模与模拟研究,国家自然科学基金面上项目,2018/01-2021/12
2.聚合物充填处理的电路板在热力载荷下的失效研究,国家自然科学基金青年科学基金项目,2015/01-2017/12
3.应力波XX结构削波机理研究,基础加强计划重点基础研究项目子课题,2020/08-2024/06
4.基于界面增强的非均匀多晶点阵超材料的吸能性能与变形机理研究,爆炸科学与技术国家重点实验室(北京理工大学)开放课题,2022/01-2023/12
5.仿晶体微观结构的多晶点阵超材料的设计与力学性能研究,机械结构力学及控制国家重点实验室(南京航空航天大学)开放课题,2021/01-2022/12
6.喷丸表面处理有效性和可靠性的机理研究,上海市教委科研创新项目,2015/01-2016/12
7.XX滑移坠落事故仿真计算分析,上海电气产学研项目,2019
8.同济大学英才计划优青项目,2014/09-2016/08
1.软件应用类课程的教学方法探索与实践,同济大学航力学院教改项目,2017/01-2018/12
2.杨帆,王莉华,汤可可,从日常生活到大国重器-浅谈虚拟仿真课程教学中的课程思政,2022新时代高校力学教学改革与创新研讨会(第十六届力学课程报告论坛)论文集,2023.
3.杨帆,王莉华,赵金峰,有限元仿真的一堂课——兼说实例驱动型启发式教学法,力学与实践,2019, 41: 463-469.
4.杨帆,赵金峰,王莉华,从一个例子看实例驱动型启发式教学法在有限元仿真课程中的应用,第十三届力学课程报告论坛论文集,2018
5.杨帆,王莉华,赵金峰,工程软件应用类课程的多元化开放式考核方式设计与研究,教育教学论坛,2018, 13: 139-141.
6.杨帆,赵金峰,王莉华,浅谈工科专业工程软件应用类课程的教学方法——基于同济大学CAD/CAE课程教学实践的思考,当代教育实践与教学研究,2018, 02: 76-77.
1.同济大学航力学院学科岗位责任教授,2022至今/ Discipline Responsible Professor
2.同济大学航力学院院长助理,2017-2021/ Assistant Dean, School of Aerospace Engineering and Applied Mechanics
3.上海市力学学会固体力学专业委员会秘书长,2016至今/ Secretariat of Shanghai Specialized Committee of Solid Mechanics
4.中国机械工程学会表面工程分会表层改性专业技术委员会副秘书长,2015-2020/ Vice Secretariat of Specialized Committee of Surface Modification of China Mechanical Engineering Association
5.Journal of Thermal Stresses编委,2016至今/ Member of Editorial Board
6.《力学季刊》编委,2020至今/ Member of Editorial Board, Chinese Quarterly of Mechanics
1.Fan Yang, Enhanced energy absorption properties of polycrystalline-like lattice meta-structures through interface strengthening. 5th International Conference on Recent Advances in Nonlinear Mechanics (RANM2021+1), Hangzhou, China, 2022.
2.Fan Yang, Thermal-mechanical simulation of shot peening treatment and resulted devitrification. 12th International Conference on Thermal Stresses (TS), Hangzhou, China, 2019.
3.Fan Yang, Modeling the combined thermal mechanical effects on the residual stresses generation during the shot peening treatment. International Conference on Advanced Materials Science and Engineering (AMSE), Osaka, Japan, 2019.
4.Fan Yang, On the transition of collapse mode for the thin-walled foam-filled circular columns. 6th International Conference on Integrity - Reliability – Failure (IRF), Lisbon, Portugal, 2018, Session Chair
5.Fan Yang, Modelling the transition of collapse mode for the thin-walled circular columns after foam-filling. 11th Asian-Australasian Conference on Composite Materials (ACCM), Cairns, Australia, 2018.
6.Fan Yang, Analytical model of the progressive collapse of foam-filled frutum considering foam/shell friction. 7th International Conference on Mechanics and Materials in Design (M&MD), Algarve, Portugal, 2017, Session Chair
7.Fan Yang, Stress driven crystallization of metallic glass Cu. 25th International Conference on Composites and Nano (ICCE), Rome, Italy, 2017, Session Chair
8.Fan Yang, Kinematically admissible mechanisms for the progressive collapse of foam-filled circular frustum. 5th International Conference on Integrity - Reliability – Failure (IRF), Porto, Portugal, 2016, Session Chair
9.Fan Yang, Finite element simulations on rust removal by shot blast. 7th International Conference on Surface Engineering (ICSE), Chengdu, China, 2016.
International Journal of Solids and Structures,
International Journal of Impact Engineering,
International Journal of Mechanical Science,
ASME Journal of Applied Mechanics, Composite Structures,
Composites part B,
Surface & Coatings Technology,
Materials & Design,
Thin-walled Structures,
Aerospace Science and Technology,
Applied Mathematics and Mechanics,
Journal of Manufacturing Processes,
Journal of Sandwich Structures and Materials,
Acta Mechanica,
Meccanica,
International Journal of Mechanics and Materials in Design,
Journal of Materials Engineering and Performance,
International Journal of Structural Stability and Dynamics,
Nanotechnology Reviews,
Mechanics Based Design of Structures and Machines,
Journal of Thermal Stresses,
International Journal of Crashworthiness,
P I Mech Eng B Journal of Engineering Manufacture,
P I Mech Eng C Journal of Mechanical Engineering Science,
P I Mech Eng L Journal of Materials: Design and Applications,
Materials Research Innovations,
etc.
2017年上海市力学学会优秀青年学者奖
2017年同济大学荣泰航天健康奖教金
2020年同济大学教学成果二等奖(3/5)
2020年同济大学教学成果三等奖(1/4)
2021年同济大学教学成果三等奖(2/2)
航力学院师德师风优秀教师(2020-2022连续三年)
学生获奖
王鹏,2022年,同济大学十佳学术先锋
王鹏,2022年,上海市力学学会优秀学生奖
王鹏,2022年,同济大学航空航天与力学学院航力之星
张思远,2022年,研究生国家奖学金
王鹏,2022年,研究生国家奖学金
张思远,2022年,同济大学优秀学生干部
李凌博,2022年,复旦-同济-上交联合博士生论坛优秀论文奖
王鹏,2022年,同济大学航力学院研究生科研创新成果奖
王鹏,2022年,同济大学研究生优秀学生标兵
王睿成,2022年,国家级大学生创新创业项目获批
卞奕杰,2021年,研究生国家奖学金
王鹏,2021年,全国爆炸力学学术会议博士生论坛优秀论文奖
王鹏,2021年,复旦-同济-上交联合博士生论坛优秀论文奖
王鹏,2021年,同济大学社会活动奖学金
田坤、张媛、赵琦,2019年,在校本科生首次发表一作一区SCI论文(同济新闻网)
课题组长期招收硕士、博士、博士后,欢迎各位力学、机械、材料等专业学子报名和咨询,将努力为学生提供最好的发展机会!