代表性著作
[1] H. J. Chu*, M.Z. Wang. The definition of point sources: point charge, mass point and heat point source a generalized Sternberg definition of concentrated forces. Journal of Applied Mechanics 81(1), 011010-3, 2014
[2] H.J. Chu*, E. Pan. Elastic fields due to dislocation arrays in anisotropic bimaterials. International Journal of Solids and Structures (in Press)
[3] H.J. Chu, J. Wang*, C.Z. Zhou, I.J. Beyerlein. An analytical model for the critical shell thickness in core/shell nanowires based on crystallographic slip. Journal of the Mechanics and Physics of Solids 61(11), 2147-2160, 2013
[4] H.J. Chu,J. Wang*, I.J. Beyerlein. Dislocation models of interfacial shearing induced by an approaching lattice glide dislocation. International Journal of Plasticity 41, 1-13, 2013
[5] H.J. Chu, H.M. Wang, Y.F. Zhao, E. Pan*. Dislocation and traction loads over an elliptical region in anisotropic magnetoelectroelastic biomaterials. Smart Materials and Structures, 22(12), 125020(1-14), 2013
[6] H.J. Chu, E. Pan, X. Han, J. Wang*, I.J. Beyerlein. Elastic fields of dislocation loops in three-dimensional anisotropic bimaterials. Journal of the Mechanics and Physics of Solids 60(3), 418-431, 2012
[7] H.J. Chu, E. Pan*, J. Wang, I.J. Beyerlein. Elastic displacement and stress fields induced by a dislocation of polygonal shape in an anisotropic elastic half-sapce. Journal of Applied Mechanics 79(2), 021011, 2012
[8] H.J. Chu, J. Wang*, and I.J. Beyerlein. Anomalous reactions of a supersonic coplanar dislocation dipole: by-pass or twinning? Scripta Materialia 67(1), 69-72, 2012
[9] H. J. Chu, C. Z. Zhou, J. Wang*, I. J. Beyerlein. Misfit strain relaxation mechanisms in core/shell nanowires. JOM 64(10), 1258-1262, 2012
[10] H.J. Chu, J. Wang*, C.Z. Zhou, and I.J. Beyerlein. Self-energy of elliptical dislocation loops in anisotropic crystals and its application for defect-free core/shell nanowires. Acta Materialia 59(18), 7114-7124, 2011
[11] H.J. Chu, E. Pan, J. Wang*, and I.J. Beyerlein.Three-dimensional elastic displacements induced by a dislocation of polygonal shape in anisotropic elastic crystals. International Journal of Solids and Structures 48(7-8), 1164-1170, 2011
[12] H. J. Chu, E. Pan*, J. J. Ramsey, J. Wang, and C. X. Xue. A general perturbation method for inhomogeneities in anisotropic and piezoelectric solids with applications to quantum-dot nanostructures. International Journal of Solids and Structures 48(5), 673-679, 2011
[13] H. J. Chu, Y. Zhang, E. Pan*, and Q. K Han. Circular surface loading on a layered multiferroic half space. Smart Materials and Structures 20(3), 035020, 2011
[14] J. Wang and H.J. Chu, 2006. A perturbation theory for calculating strain distributions in heterogeneous and anisotropic quantum dot structures, Journal of Applied Physics 100, 053520:1-6
[15] H.J. Chu and J. Wang, 2005. Strain distribution in arbitrarily shaped quantum dots with nonuniform composition. Journal Applied Physics 98, 034315:1-7
[16] H.J. Chuand J. Wang, 2005. An approach for calculating strain distributions in arbitrarily shaped quantum dots. Chinese Physics Letter 22, 667-670
[17] H.J. Chu and M.Z. Wang, 2005. A note on the limit-definition of concentrated loads. Transactions of the ASME- Journal of Applied Mechanics 72, 418-421
[18] Q. Han*, M. Wang, H. Chu. Nonsynchronous Vibrations of Rotor System with an Oil-Block inside the Rotating Drum, Advances in vibration engineering, 12 (2): 165, 2013
[19] H.W. Yang, W.L. Luan*, R. Cheng, H.J. Chu, and S.T. Tu, 2011. Synthesis of quantum dots via microreaction: structure optimization for microreactor system. Journal of Nanoparticle Research 13, 3335-3344
[20] C.X. Xue, E. Pan*, S.Y. Zhang, H.J. Chu, 2011. Large deflection of a rectangular magnetoelectroelastic thin plate. Mechanics Research Communications 38, 518-523
[21] C. X. Xue, E. Pan*, Q.K. Han, S.Y. Zhang, and H.J. Chu, 2011.Non-linear principal resonance of an orthotropic and magnetoelastic rectangular plate, International Journal of Non-Linear Mechanics 46, 703-710
[22] H. J. Chu, E. Pan*, J. Wang. Elastic and electric fields in quantum wire/dot nanostructures via the perturbation theory. IUTAM Symposium on Surface Effects in the Mechanics of Nanomaterials and Heterostructures, 2010, 27-35, Beijing. 2013