硕士生导师
个人信息Personal Information
教师英文名称:Jianghong Yuan
学历:博士研究生毕业
学位:工学博士学位
办公地点:西南交通大学九里堤校区行政楼215室
毕业院校:浙江大学
所在单位:力学与航空航天学院
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个人简介Personal Profile
教育经历:
2008.09-2013.12:浙江大学,岩土工程研究所,岩土工程专业,研究生(硕转博),获工学博士学位;
2004.09-2008.06:浙江大学,建筑工程学院,土木工程系,本科,获工学学士学位。
工作及访学经历:
2017.01-至今: 西南交通大学,力学与工程学院,工程力学系,副教授;
2014.07-2015.06:美国西北大学,土木与环境工程系,访问学者;
2014.01-2016.05:清华大学,航天航空学院,先进力学与材料中心,力学博士后。
研究兴趣:
1)软材料与柔性结构力学设计。近几年一直从事这方面的研究,主要侧重于软体机器人/驱动器以及柔性/可拉伸电子器件的力学结构设计。
2)位错环弹性理论。主要利用数学技巧,求解任意单一位错环所产生的位移场/应力场的线积分表达式,以及任意两个位错环之间的相互作用能的二重线积分表达式,考虑的因素包括:材料各向异性,层合界面/表面,多场耦合效应。
3)梁板结构动力学。主要利用数学技巧,求解非均匀、变截面梁板结构的自由振动问题的精确解。
论文发表:
方向1 - 软材料与柔性结构力学设计:
A. 第一或通讯作者论文:
[1] J.H. Yuan*, Z.Z. Mu, P. Feng, Y. Huang*, and X. Ling. Tuning the load-deflection curve of beams via densely distributed edge cracks: Analytic modeling and solutions. Mechanics of Advanced Materials and Structures (published online 2020.05.12).
[2] P. Feng#, J.H. Yuan#,*, Y. Huang, and X.Y. Li*. Analytical solutions for the lateral-torsional buckling of serpentine interconnects in stretchable electronics. Journal of Applied Mechanics - Transactions of the ASME, 2020.08, 87(8): 081005.
[3] Y. Huang, Z.Z. Mu, P. Feng, and J.H. Yuan*. Mechanics Design for Compatible Deformation of Fractal Serpentine Interconnects in High-Density Stretchable Electronics. Journal of Applied Mechanics - Transactions of the ASME, 2019.03, 86(3): 031011.
[4] J.H. Yuan#, C. Dagdeviren#, Y. Shi, Y.J. Ma, X. Feng, J.A. Rogers*, and Y.G. Huang*. Computational models for the determination of depth-dependent mechanical properties of skin with a soft, flexible measurement device. Proceedings of the Royal Society A – Mathematical, Physical and Engineering Sciences, 2016.10, 472(2194): 20160225 (17 pages).
[5] J.H. Yuan*, M. Pharr, X. Feng, J.A. Rogers, and Y.G. Huang. Design of stretchable electronics against impact. Journal of Applied Mechanics - Transactions of the ASME, 2016,10; 83(10): 101009 (5 pages).
[6] J.H. Yuan#, Y. Shi#, M. Pharr, X. Feng, J.A. Rogers, and Y.G. Huang*. A mechanics model for sensors imperfectly bonded to the skin for determination of the Young’s moduli of epidermis and dermis. Journal of Applied Mechanics - Transactions of the ASME, 2016.08, 83(8): 084501 (3 pages).
B. 合作论文:
[1] Y.F. Chen, G.Z. Kang*, J.H. Yuan, T.F. Li, and S.X. Xu. Experimental investigation on electro-mechanically coupled cyclic deformation of laterally constrained dielectric elastomer. Polymer Testing, 2020.01, 81: 106220.
[2] Y.F. Chen, G.Z. Kang*, J.H. Yuan, and T.F. Li. Experimental study on pure-shear like cyclic deformation of VHB 4910 dielectric elastomer. Journal of Polymer Research, 2019.08, 26(8): 186.
[3] Y.G. Xue, W.-K. Lee, J.H. Yuan, T.W. Odom*, and Y.G. Huang*. Mechanics Modeling of Hierarchical Wrinkle Structures from the Sequential Release of Pre-strain. Langmuir, 2018.12, 34(51): 15749-15753.
[4] Y.F. Chen, G.Z. Kang*, J.H. Yuan, and Y. Chao. Uniaxial Ratchetting of Filled Rubber: Experiments and Damage-Coupled Hyper-Viscoelastic-Plastic Constitutive Model. Journal of Applied Mechanics-Transactions of the ASME, 2018.06, 85(6): 061013 (9 pages).
[5] X.G. Yu, H.L. Wang, X. Ning, R.J. Sun, H. Albadawi, M. Salomao, A.C. Silva, Y. Yu, L.M. Tian, A. Koh, C.M. Lee, A. Chempakasseril, P.L. Tian, M. Pharr, J.H. Yuan, Y.G. Huang*, R. Oklu*, and J.A. Rogers*. Needle-shaped ultrathin piezoelectric microsystem for guided tissue targeting via mechanical sensing. Nature biomedical engineering, 2018. 03, 2: 165-172.
[6] Y. Chen, J.H. Yuan, Y.C. Zhang, Y.G. Huang*, and X. Feng*. Experimental and theoretical analysis of integrated circuit (IC) chips on flexible substrates subjected to bending. Journal of Applied Physics, 2017.10, 122(13): 135310 (7 Pages).
[7] Y. Huang, J.H. Yuan, Y.C. Zhang, and X. Feng*. Interfacial delamination of inorganic films on viscoelastic substrates. Journal of Applied Mechanics - Transactions of the ASME, 2016.10, 83(10): 101005.
方向2 - 位错环弹性理论:
A. 第一或通讯作者论文:
[1] J.H. Yuan, Y. Huang, W.Q. Chen, E. Pan, and G.Z. Kang*. Theory of dislocation loops in multilayered anisotropic solids with magneto-electro-elastic couplings. Journal of the Mechanics and Physics of Solids, 2019.04, 125: 440-471.
[2] J.H. Yuan#,*, Y. Huang#, W.Q. Chen, and E. Pan. Interaction energy of interface dislocation loops in piezoelectric bi-crystals. Theoretical and Applied Mechanics Letters(力学快报), 2017, 7(2): 76-80.
[3] J.H. Yuan*, W.Q. Chen, and E. Pan. Elastic theory of dislocation loops in three-dimensional isotropic bi-materials. International Journal of Solids and Structures, 2016.12, 100-101: 138-150.
[4] J.H. Yuan, W.Q. Chen, and E. Pan*. Line-integral representations for the extended displacements, stresses, and interaction energy of arbitrary dislocation loops in transversely isotropic magneto-electro-elastic bimaterials. Applied Mathematics and Mechanics-English Edition, 2014.08, 35(8): 1005-1028.
[5] J.H. Yuan, E. Pan*, and W.Q. Chen. Line-integral representations for the elastic displacements, stresses and interaction energy of arbitrary dislocation loops in transversely isotropic bimaterials, International Journal of Solids and Structures, 2013, 50: 3472-3489.
[6] J.H. Yuan, W.Q. Chen, and E. Pan*. Line-integral representations of the displacement and stress fields due to an arbitrary Volterra dislocation loop in a transversely isotropic elastic full space, International Journal of Solids and Structures, 2013, 50: 160-175.
B. 合作论文:
[1] R.F. Zheng, T.H. Wu, X.Y. Li, and J.H. Yuan. Mode I vertical elliptic crack problem of multiferroic composites. International Journal of Engineering Science, 2019.08, 141: 95-111.
[2] E. Pan, J.H. Yuan, W.Q. Chen, and W.A. Griffith. Elastic deformation due to polygonal dislocations in a transversely isotropic half-space. Bulletin of the Seismological Society of America, 2014.12, 104(6): 2698-2716.
方向3 - 梁板结构动力学:
A. 第一或通讯作者论文:
[1] J.H. Yuan*, Z.Z. Mu, and I. Elishakoff. Novel modification to the Timoshenko-Ehrenfest theory for inhomogeneous and nonuniform beams. AIAA Journal, 2020.02, 58(2): 939-948.
[2] J.H. Yuan, X.N. Wei, and Y. Huang*. Exact solutions for nonaxisymmetric vibrations of radially inhomogeneous circular Mindlin plates with variable thickness. Journal of Applied Mechanics - Transactions of the ASME, 2017.07, 84(7): 071003.
[3] J.H. Yuan*, and W.Q. Chen. Exact solutions for axisymmetric flexural free vibrations of inhomogeneous circular Mindlin plates with variable thickness. Applied Mathematics and Mechanics-English Edition, 2017.04, 38(4): 505-526.
[4] J.H. Yuan*, Y.H. Pao, and W.Q. Chen, Exact solutions for free vibrations of axially inhomogeneous Timoshenko beams with variable cross section, Acta Mechanica, 2016, 227: 2625-2643.
B. 合作论文:
[1] P.L. Pei, J.H. Yuan, X. Zhang, G.Z. Kang, P. Wang, and Q.H. Kan*. Forced vibration analysis of blade after selective laser shock processing based on Timoshenko's beam theory. Composite Structures, 2020.07, 243: 112249.