学术活动

 

英文期刊论文(请见ResearcherID)

 

http://www.researcherid.com/rid/F-4455-2010 

专著:

S. N. Atluri and S. Shen, The Meshless Local Petrov-Galerkin (MLPG) Method. Tech Science Press, Los Angeles, 2002, 440 pages.
 

 期刊论文

  

1.        Pengfei Yu, Shuling Hu, and *S. Shen, Electrochemomechanics with flexoelectricity and modelling of electrochemical strain microscopy in mixed ionic-electronic conductors. Journal of Applied Physics, 120065102 (12 pages), 2016
2.        *Wenshan Yu, *S. Shen, Energetics of point defect interacting with grain boundaries undergone plastic deformations. Int. J. Plasticity, 2016 (In press)
        H. L. Wang, *S. Shen, A chemomechanical model for stress evolution and distribution in the viscoplastic oxide scale during oxidation.ASME J. Appl. Mech., ?: ? (? pages), 2016 (In press)
4.        R. Z. Zhang, X. Liang, *S. Shen, A Timoshenko dielectric beam model with flexoelectric effect. Meccanica, 2015 (In press)
5.        Wenyuan Liu, Wei Xia, *S. Shen, Fully coupling chemomechanical yield theory based on evolution equations. International Journal of Applied Mechanics, 8: 1650058 (12 pages), 2016
6.        *W.S. Yu, *S. Shen, Q. F. Liu, Point defect interacting with bi-crystal copper grain boundaries. Comput. Mater. Sci., 118: 47-55, 2016
        Jianfeng Lu, Jiangyan Lv, *Xu Liang, Minglong Xu, and *S. Shen, Improved approach to measure the direct flexoelectric coefficient of bulk PVDF. Journal of Applied Physics, 119094104 (6 pages), 2016
8.        X. Liang, W.J. Yang, S. L. Hu, *S. Shen, Buckling and vibration of flexoelectric nanofilms subjected to mechanical loads. Journal of Physics D: Applied Physics, 49: 115307(10pp), 2016
9.        Shuwen Zhang, *Minglong Xu, Kaiyuan Liu, S. Shen, A flexoelectricity effect-based sensor for direct torque measurement. Journal of Physics D: Applied Physics, 48: 485502, 2015
10.    Shuwen Zhang, Xu Liang, *Minglong Xu, Bo Feng, S. Shen, Shear flexoelectric response along 3121 direction in polyvinylidene fluoride. Appl. Phys. Lett., 107: 142902, 2015
    Y. H. Suo, *S. Shen, Coupling diffusion-reaction-mechanics model for oxidation. Acta Mech, 226: 3375-3386, 2015
12.    X. Liang, S. L. Hu, *S. Shen, Size-dependent buckling and vibration behaviors of piezoelectric nanostructures due to flexoelectricity. Smart Mater. Struct., 24: 105012(13 pages), 2015
    *Q. F. Liu, L. Wang, S. Shen, Effects of Geometry and Shape on the Mechanical Behaviors of Silicon Nanowires. CMC: Computers Materials & Continua, 46(2): 105-123, 2015
    Y. H. Suo, X. X. Yang, S. Shen, Residual stress analysis due to chemomechanical coupled effect, intrinsic strain and creep deformation during oxidation. Oxidation of Metals, 84: 413-427, 2015
    L. Wang, *Q. F. Liu, S. Shen, Effects of void-crack interaction and void distribution on crack propagation in single crystal silicon. Engineering Fracture Mechanics, 146: 56-66, 2015
    Shuwen Zhang, *Minglong Xu, Xu Liang, and S. Shen, Shear Flexoelectric coefficient μ1211 in Polyvinylidene Fluoride. Journal of Applied Physics, 117 205102 (5 pages), 2015
    W.J. Yang, X. Liang, *S. Shen, Electromechanical responses of piezoelectric nanoplates with flexoelectricity. Acta Mech, 226: 3097-3110, 2015
18.    Q. F. Liu, L. Wang, S. Shen, Effect of surface roughness on elastic limit of silicon nanowires. Comput. Mater. Sci.,101: 267-274, 2015
    H. L. Wang, Y. H. Suo, *S. Shen, Reaction-diffusion-stress coupling effect in inelastic oxide scale during oxidation. Oxidation of Metals, 83: 507-519, 2015
    X. Liang, S. L. Hu, *S. Shen, Surface effects on the post-buckling of piezoelectric nanowires. Physica E, 69: 61-64, 2015
    P. F. Yu, *S. Shen, A fully coupled theory and variational principle for thermal-electrical-chemical-mechanical processes. ASME J. Appl. Mech., 81: 111005 (12 pages), 2014
    S. S. Yang, *S. Shen, Anti-plane circular nano-inclusion problem with electric field gradient and strain gradient effects. CMC: Computers Materials & Continua, 40(3): 219-239, 2014
23.    X. Liang, S. L. Hu, *S. Shen, Effects of surface and flexoelectricity on the piezoelectric nanobeam. Smart Mater. Struct., 23: 035020 (8 pages), 2014
24.    X. Liang, S. L. Hu, *S. Shen, A new Bernoulli-Euler beam model based on a simplified strain gradient elasticity theory and its applications. Composite Structures, 111: 317-323, 2014
    C. C. Liu, S. L. Hu, *S. Shen, Effect of Flexoelectricity on Band Structures of One-Dimensional Phononic Crystals. ASME J. Appl. Mech., 81: 051007 (6 pages), 2014
26.    X. Wang, *S. Shen, Effects of temperature and strain on thermal properties of Ni/Al laminated structure. Comput. Mater. Sci., 84: 13-17, 2014.
    Y. H. Suo, *S. Shen, Analytical solution for 2D non-Fick transient mass transfer with arbitrary initial and periodic boundary conditions. ASME Journal of Heat Transfer, 135: 082001 (9 pages), 2013
    Y. H. Suo, *S. Shen, General approach on chemistry and stress coupling effects during oxidation. Journal of Applied Physics, 114: 164905 (6 pages), 2013
    S. L. Hu, *S. Shen, Non-equilibrium thermodynamics and variational principles for fully coupled thermal mechanical chemical processes, Acta Mech, 224: 2895-2910, 2013
30.    X. Liang, S. L. Hu, *S. Shen, Bernoulli-Euler dielectric beam model based on strain-gradient effect. ASME J. Appl. Mech., 80: 044502, 2013
    Ying Xu 91: 397-408, 2013

 

X. Liang, *S. Shen, Size-dependent piezoelectricity and elasticity due to the electric field-strain gradient coupling and strain gradient elasticity. International Journal of Applied Mechanics, 5: 1350015 (16 pages), 2013
   
33.    X. Liang, *S. Shen, Dynamic analysis of Bernoulli-Euler piezoelectric nanobeam with electrostatic force. SCIENCE CHINA Physics, Mechanics & Astronomy, 56: 1930-1937, 2013
    Y. H. Suo, *S. Shen, Analytical solution for one-dimensional coupled non-Fick diffusion and mechanics. Archive of Applied Mechanics, 83: 397-411, 2013
35.    Q. F. Liu, *S. Shen, Interaction of Voids and Nano-ductility in Single Crystal Silicon. Comput. Mater. Sci., 67: 123-132, 2013.
    S. S. Yang, S. L. Hu, *S. Shen, Local electroelastic field and effective electroelastic moduli of piezoelectric nanocomposites with interface effect. CMC: Computers Materials & Continua, 29(3): 279-298, 2012
37.    Q. F. Liu, *S. Shen, On the large-strain plasticity of silicon nanowires: Effects of axial orientation and surface. Int. J. Plasticity, 38: 146-158, 2012
38.    C. C. Liu, S. L. Hu, *S. Shen, Effect of flexoelectricity on electrostatic potential in a bent piezoelectric nanowire. Smart Mater. Struct., 21: 115024 (9pp), 2012
39.    X. Liang, *S. Shen, Effect of electrostatic force on a piezoelectric nanobeam. Smart Mater. Struct., 21: 015001 (6pp), 2012
    Y. H. Suo, *S. Shen, Dynamical theoretical model and variational principles for coupled temperature–diffusion–mechanics. Acta Mech, 223: 29-41, 2012
    Y. Xu, *S. Shen, Surface electric Gibbs free energy and its effect on the electromechanical behavior of nano-dielectrics. CMC: Computers Materials & Continua, 28: 81-95, 2012
    X. H. Wu, Z.J. Chang, Y.L. Lu, W.Q. Tao, S. Shen, An analysis of the convection-diffusion problems using meshless and meshbased methods.Engineering Analysis with Boundary Elements, 36: 1040-1048, 2012
43.    X. H. Wu, Z.J. Chang, W.Q. Tao, Z.Y. Li, S. Shen, MLPG method for convection-dominated flow problems. Progress in computational fluid dynamics, 12: 27-26, 2012
44.    H. B. Li, *S. Shen, The mechanical properties of bamboo and vascular bundles. J. Mater. Res., 26: 2749-2756, 2011 (封面文章)
45.    Y. Zhang, *S. Shen, Influences of surface on the interaction between holes or edge. Archive of Applied Mechanics, 81: 385–395, 2011.
46.    H. B. Li, *S. Shen, Experimental Investigation on Mechanical Behavior of Moso Bamboo Vascular Bundles. Key Engineering Materials, 462-463: 744-749, 2011.
47.    *S. Shen, S. Hu, A theory of flexoelectricity with surface effect for elastic dielectrics. Journal of the Mechanics and Physics of Solids, 58: 665-677, 2010
48.    W. S. Yu, *S. Shen, Multiscale study on the tensile fracture of Al-terminated Cu(111)/ a-Al2O3(0001) interface. Comput. Mater. Sci., 48: 228-240, 2010.
    W. S. Yu, *S. Shen, Initial dislocation topologies of nanoindentation into copper (0 0 1) film with a nanocavity. Engineering Fracture Mechanics, 77: 3329-3340, 2010
    Q. F. Liu, *S. Shen, Effects of Surface Orientation and Temperature on Tensile Deformation of Gold Nanowires. CMC: Computers Materials & Continua, 17: 59-75, 2010
    T. T. Hu, *S. Shen, Effects of TGO Roughness on Indentation Response of Thermal Barrier Coatings. CMC: Computers Materials & Continua, 17: 41-57, 2010
    S. Hu, *S. Shen, Variational principles and governing equations in nano-dielectrics with the flexoelectric effect. SCIENCE CHINA Physics, Mechanics & Astronomy, 53: 1497-1504, 2010.
53.    X. H. Wu, W. Q. Tao, S. Shen, X. W. Zhu, A stabilized MLPG method for steady state incompressible fluid flow simulation. J. Comput. Phys., 229: 8564-8577, 2010
54.    W. S. Yu, *S. Shen, Effects of small indenter size and its position on incipient yield loading during nanoindentation. Mater. Sci. Eng. A, 526: 211-218, 2009
    S. Hu, *S. Shen, Electric field gradient theory with surface effect for nano-dielectrics. CMC: Computers, Materials, & Continua, 13: 63-87, 2009.
56.    W. S. Yu, *S. Shen, Multiscale analysis of the effects of nanocavity on nanoindentation. Comput. Mater. Sci., 46: 425-430, 2009
57.    Y. Zhang, *S. Shen, A modified multiscale model for microcantilever sensor. CMC: Computers, Materials, & Continua. 8(1): 17-22, 2008
58.    S. Hu, *S. Shen, Analysis of the interaction between two nanovoids using bipolar coordinates. CMES: Comput. Model. Engng. Sci., 30(2): 57-64, 2008
59.    S. Hu, *S. Shen, T. Nishioka, Numerical analysis for a crack in piezoelectric material under impact. Int. J. Solids Structures, 44: 8457-8492, 2007
60.    X.H. Wu, S. Shen, *W. Tao, Meshless local Petrov-Galerkin collocation method for two-dimensional heat conduction problems. CMES: Comput. Model. Engng. Sci., 22: 65-76, 2007
61.    *S. Shen, and S. N. Atluri, An analytical model for shot-peening induced residual stresses. CMC: Computers, Materials, & Continuua62.