Jiashi Yang Home Page More Info

Jiashi Yang, Associate Professor

Previous Experience:

12/95-8/97: Engineer, Motorola, Inc.
9/94-11/95: Postdoctoral Research Associate
Department of Mechanical Engineering, Aeronautical Engineering and Mechanics
Rensselaer Polytechnic Institute
9/93-8/94: Postdoctoral Fellow
Department of Mechanical and Aerospace Engineering and Engineering Mechanics University of Missouri-Rolla

Other positions:

Adjunct Professor, Ningbo University, China
Adjunct Professor, Huazhong University of Science and Technology, Wuhan, China.
Adjunct Professor, Key Laboratory for Advanced Materials and Rheological Properties of Ministry of Education, Xiangtan University, Xiangtan, Huanan 411105, 2006-2008, China.
Adjunct Professor, Institute of Mechanics and Sensor Technology, Central South University, China, Sept. 2006-Sept. 2011.
The Steering Committee of the International Symposium on Applied Electromagnetics and Mechanics, 1999-2006.
The Scientific Committee of the Symposium on Piezoelectricity, Acoustic Waves, and Devices Applications, since 2004.

Membership:

IEEE
The IEEE Ultrasonics, Ferroelectrics, and Frequency Control Society

U.S. Patents:

J. S. Yang and H. Y. Fang, Piezoelectric gyroscopic system, and method of use, Patent number 6,777,857 B1, 8/17/2004.
J. S. Yang, Tubular Coriolis force driven piezoelectric gyroscope system, and method of use, Patent number 6,457,358 B1, 10/1/2002.
J. S. Yang, High voltage sensitivity Coriolis force driven piezoelectric transformer-gyroscope system, and method of use, Patent Number 6,140,748, Issue Date: 10/31/00.
B. Vojak, J. S. Yang, J. Mattson and J. Huang, Surface micromachined acoustic wave piezoelectric crystal with electrodes on raised ridges and in spaces therebetween, Patent Number: 5,815,054, Issue Date: 9/29/1998.

Publications in Refereed Journals:

[174] H. Xue, Y. T. Hu, Q.-M. Wang and J. S. Yang, Analysis of temperature compensation in a plate thickness mode bulk acoustic wave resonator, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., accepted.

[173] J. S. Yang, Piezoelectric transformer structural modeling-a review, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., accepted.

[172] J. S. Yang, X. H. Chen and A-K Soh, Acoustic leakage in electromagnetic waveguides made from piezoelectric materials, J. Appl. Phys., accepted.

[171] J. S. Yang, Z. G. Chen, Y. T. H, S. N. Jiang and S. H. Guo, Propagation of thickness-twist waves in a multi-sectioned piezoelectric plate of 6mm crystals, Archives of Mechanics, accepted.

[170] J. S. Yang, Nonlinear torsional vibration of a circular cylindrical piezoelectric rod with relatively large shear deformation, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., accepted.

[169] J. S. Yang, Comment on S. K. Ha, “Admittance matrix of asymmetric piezoelectric bimorph with two separate electrical ports under general distributed load”, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., accepted.

[168] Z. G. Chen, Y. T. Hu and J. S. Yang, A piezoelectric generator based on torsional modes for power harvesting from angular vibrations, Applied Mathematics and Mechanics, accepted.

[167] J. S. Yang and A. K. Soh, A new mass sensor based on thickness-twist edge modes in a piezoelectric plate, Europhysics Letters, accepted.

[166] J. S. Yang and S. H. Guo, Vibrations of a crystal body with a shear-deformable surface mass layer, Acta Mechanica, accepted.

[165] J. S. Yang, Comment on G. Sebald, et al., “Modeling of elastic nonlinearities in ferroelectric materials including nonlinear losses: application to nonlinear resonance mode of relaxor single crystals,” IEEE Trans. Ultrason., Ferroelect., Freq. Contr., accepted.

[164] Y. T. Hu, Y. Zeng and J. S. Yang, A mode III crack in a piezoelectric semiconductor of crystals with 6mm symmetry, Int. J. Solids. Structures, 44, 3928-3928, 2007.

[163] J. S. Yang, H. Xue, H. Y. Fang, Y. T. Hu, J. Wang and L. J. Shen, Effects of electrodes with varying thickness on energy trapping in thickness-shear quartz resonators, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 892-895, 2007.

[162] J. S. Yang, J. J. Liu and J. Y. Li, Analysis of a rectangular ceramic plate in electrically forced thickness-twist vibration as a piezoelectric transformer, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 830-835, 2007.

[161] J. S. Yang, Comment on Y.-H. Hsu et al., “Electrical and mechanical fully coupled theory and experimental verification of Rosen-type piezoelectric transformers”, IEEE Trans. Ultrason. Ferroelect., Freq. Contr., 54, 699-670, 2007.

[160] J. S. Yang, Z. G. Chen and Y. T. Hu, Mass sensitivity of thickness-twist modes in a rectangular piezoelectric plate of hexagonal crystals, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 882-887, 2007.

[159] J. S. Yang, Z. G. Chen and Y. T. Hu, Propagation of thickness-twist waves through a joint between two semi-infinite piezoelectric plates, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 888-891, 2007.

[158] J. S. Yang, Z. G. Chen, Y. T. Hu, S. N. Jiang and S. H. Guo, Weakly nonlinear behavior of a plate thickness mode piezoelectric transformer, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 877-881, 2007.

[157] J. Wang, J. S. Yang and J. Y. Li, Energy trapping of thickness-shear vibration modes of elastic plates with functionally graded materials, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 687-690, 2007.

[156] J. S. Yang, Z. G. Chen and Y. T. Hu, Theoretical modeling of a thickness-shear circular cylinder piezoelectric transformer, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 621-626, 2007.

[155] J. S. Yang, Thickness-twist edge modes in a semi-infinite piezoelectric plate of crystals with 6mm symmetry, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 220-221, 2007.

[154] J. S. Yang, Z. G. Chen and Y. T. Hu,An exact analysis of a rectangular plate piezoelectric generator, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 54, 190-195, 2007.

[153] S. N. Jiang, Q. Jiang, Y. T. Hu, X. F. Li, S. H. Guo and J. S. Yang, Analysis of a piezoelectric ceramic shell in thickness-shear vibration as a power harvester, Int. J. Applied Electromagnetics and Mechanics, 24, 25-31, 2006.

[152] X. F. Li and J. S. Yang, Piezoelectric gap waves between a piezoceramic half-space and a piezoceramic plate, Sensors and Actuators A-Physical, 132, 472-479, 2006.

[151] Y. T. Hu, H. P. Hu, J. S. Yang, A low frequency piezoelectric power harvester using a spiral-shaped bimorph, Sciences in China G, 49, 649-659, 2006.

[150] J. S. Yang, X. M. Yang and J. A. Turner, Nonlinear vibrations of electroelastic shells with relatively large shear deformations, Science in China G, 49, 660-670, 2006.

[149] J. S. Yang, Y. C. Song and A. K. Soh, Analysis of a circular piezoelectric semiconductor embedded in a piezoelectric semiconductor substrate, Archive of Applied Mechanics, 76, 381-390, 2006.

[148] J. S. Yang and J. A. Kosinski, Perturbation analysis of frequency shifts in an electroelastic body under biasing fields, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 2442-2449, 2006.

[147] J. S. Yang, Z. G. Chen and Y. T. Hu, Trapped thickness-twist modes in an inhomogeneous piezoelectric plate of 6mm crystals, Philosophical Magazine Letters, 86, 699-705, 2006.

[146] J. S. Yang, X. M. Yang J. A. Turner, J. A. Kosinski, R. A. Pastore, Jr., W. P. Zhang, Effects of middle surface curvature on vibrations of a thickness-shear mode crystal resonator, Int. J. Solids. Strut., 43, 7840-7851, 2006.

[145] Y. T. Hu, J. S. Yang, Y. Zeng and Q. Jiang, A high-sensitivity, dual-plate, thickness-shear mode pressure sensor, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 2193-2197, 2006.

[144] J. S. Yang, H. G. Zhou and J. Y. Li, Electric field gradient effects in an anti-plane circular inclusion in polarized ceramics, Proc. of the Royal Soc. of London A, 462, 3511-3522, 2006.

[143] J. S. Yang, A review of a few topics in piezoelectricity, Applied Mechanics Reviews, 335-345, 2006.

[142] J. S. Yang, Acoustic gap waves in piezoelectromagnetic materials, Mathematics and Mechanics in Solids, 11, 451-458, 2006.

[141] J. S. Yang and S. H. Guo, Effects of piezoelectric coupling on Bechmann's number for thickness-twist waves in a plate of hexagonal crystals, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1960-1962, 2006.

[140] J. S. Yang, In memoriam - Harry F. Tiersten, professor and Ph.D. - 1930-2006, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1399. 2006.

[139] H. Fan, J. S. Yang and L. M. Xu, Piezoelectric waves near an imperfectly bonded interface between two half-spaces, Appl. Phys. Lett., 88 (20): Art. No. 203509 MAY 15 2006.

[138] J. S. Yang and S. H. Guo, Reduction of crystal resonator normal acceleration sensitivity by overhang plates, Appl. Phys. Lett., 88 (19): Art. No. 193509 MAY 8 2006.

[137] J. S. Yang and H. G. Zhou, On the effect of the electric field in the free space surrounding a finite piezoelectric body, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1557-1559, 2006.

[136] J. S. Yang and S. H. Guo, Propagation of thickness-twist waves in a quartz plate with asymmetric mass layers, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1560-1561, 2006.

[135] H. Fan, J. S. Yang and L. M. Xu, Anti-plane piezoelectric surface waves over a ceramic half-space with an imperfectly bonded layer, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1695-1698,2006.

[134] J. S. Yang and S. H. Guo, An estimate on the second-order normal acceleration sensitivity of a quartz resonator, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1562-1563, 2006.

[133] S. N. Jiang, Q. Jiang, X. F. Li, S. H. Guo, H. G. Zhou and J. S. Yang, Piezoelectromagnetic waves in a ceramic plate between two ceramic half-spaces, International Journal of Solids and Structures, 43, 5799-5810, 2006.

[132] Y. T. Hu, Z. J. Cui, S. N. Jiang and J. S. Yang, Thickness-shear vibrations of a circular crystal plate in a cylindrical shell as a pressure sensor, Applied Mathematics and Mechanics, 27, 749-755, 2006.

[131] Y. T. Hu, H. Xue, J. S. Yang and Q. Jiang, Nonlinear behavior of a piezoelectric power harvester near resonance, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1387-1391, 2006.

[130] J. S. Yang and S. H. Guo, Thickness-twist modes in a rectangular piezoelectric resonator of hexagonal crystals, Applied Physics Letters, 88 (15): Art. No. 153506 APR 10 2006.

[129] J. S. Yang and S. H. Guo, Mass sensitivity of thickness-shear modes in an isotropic elastic circular cylinder, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 1237-1238, 2006.

[128] J. S. Yang, Frequency shifts in a crystal resonator due to submersion in a fluid, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 662-664, 2006.

[127] J. S. Yang, S. X. Mao, K. Yan and A.-K. Soh, Size effect on the electromechanical coupling factor of a thin piezoelectric film due to a nonlocal polarization law, Scripta Materialia, 54, 1281-1286, 2006.

[126] J. S. Yang and S. H. Guo, Piezoelectromagnetic waves guided by the surface of a ceramic cylinder, Acta Mechanica, 181, 199-205, 2006.

[125] J. S. Yang, H. G. Zhou and S. X. Dong, Analysis of plate piezoelectric unimorphs, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 456-462, 2006.

[124] J. S. Yang, Y. T. Hu, Y. Zeng and H. Fan, Thickness-shear vibration of rotated Y-cut quartz plates with imperfectly bonded surface mass layers, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 53, 241-245, 2006.

[123] J. S. Yang, An ill-posed problem in elasticity, World Journal of Engineering, 2, 34-36, 2005.

[122] J. S. Yang, An anti-plane crack in a piezoelectric semiconductor , Int. J. Fracture, 136, L27-32, 2005.

[121] Y. T. Hu, J. S. Yang, S. N. Jiang and Q. Jiang, Effect of biasing fields on electromechanical coupling factors, World Journal of Engineering, 2, 63-69, 2005.

[120] X. F. Li, J. S. Yang and Q. Jiang, Spatial dispersion of short surface acoustic waves in piezoelectric ceramics, Acta Mechanica, 180, 11-20, 2005.

[119] J. S. Yang and S. H. Guo, A mass sensor based on torsional modes in a conical shell, Applied Physics Letters, 87 (21), Art. No. 214108, 2005.

[118] J. S. Yang and S. H. Guo, Mass sensitivity of anti-plane (SH) modes in an isotropic elastic wedge, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 2306-2307, 2005.

[117] J. S. Yang and S. H. Guo, Effects of nonlinear elastic constants on electromechanical coupling factors, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 2303-2305, 2005.

[116] Q. Jiang, X. M. Yang, H. G. Zhou and J. S. Yang, Analysis of surface acoustic wave pressure sensors, Sensors and Actuators A: Physical, 118, 1-5, 2005.

[115] X. M. Yang, Y. T. Hu and J. S. Yang, Electric field gradient effects in anti-plane problems of a circular cylindrical hole in piezoelectric materials of 6mm symmetry, Acta Mechanica Solida Sinica, 18, 29-36, 2005.

[114] J. S. Yang and H. G. Zhou, Two-dimensional equations for electromagnetic waves in multi-layered thin films, International Journal of Solids and Structures, 42, 6662-6679, 2005.

[113] J. S. Yang, H. G. Zhou and Z. Y. Wang, Vibrations of an asymmetrically electroded piezoelectric plate, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 2031-2038, 2005.

[112] J. S. Yang and H. G. Zhou, Wave propagation in a piezoelectric ceramic plate sandwiched between two semiconductor layers, International Journal of Applied Electromagnetics and Mechanics, 22, 97-109, 2005.

[111] Y. T. Hu, G. Q. Li, S. N. Jiang and J. S. Yang, Interaction of electric charges in a piezoelectric with rigid external cracks, Applied Mathematics and Mechanics, 26, 996-1106, 2005.

[110] J. S. Yang, H. G. Zhou, Y. T. Hu and Q. Jiang, Performance of a piezoelectric harvester in thickness-stretch mode of a plate, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 1872-1876, 2005.

[109] Y. T. Hu, J. S. Yang, S. N. Jiang and Q. Jiang, Analysis of a thickness-shear crystal resonator in a circular cylindrical shell as a pressure sensor, World Journal of Engineering, 2, 26-32, 1005.

[108] J. S. Yang, X. M. Yang, Y. T. Hu and Q. Jiang, Bending mode effect on sensitivity of plate surface acoustic wave pressure sensors, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 1748-1753, 2005.

[107] J. S. Yang and S. H. Guo, Frequency shifts in a piezoelectric body due to a surface mass layer with consideration of the layer stiffness, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 1200-1203, 2005.

[106] J. S. Yang and X. Zhang, Analysis of a thickness-shear piezoelectric transformer, International Journal of Applied Electromagnetics and Mechanics, 21, 131-141, 2005.

[105] J. S. Yang and H. G. Zhou, An interface wave in piezoelectromagnetic materials, International Journal of Applied Electromagnetics and Mechanics, 21, 63-68, 2005.

[104] S. N. Jiang, X. F. Li, S. H. Guo, Y. T. Hu, J. S. Yang and Q. Jiang, Performance of a piezoelectric bimorph for scavenging vibration energy, Smart Materials and Structures, 14, 769-714, 2005.

[103] Y. Zeng, Y. T. Hu and J. S. Yang, Electric field gradient effects in piezoelectric anti-plane crack problems, J. Huazhong University of Science and Technology, 22 Sup., 31-35, 2005.

[102] J. S. Yang and S. H. Guo, On using strain gradient theories in the analysis of cracks, International Journal of Fracture, 133, L19-L22, 2005.

[101] J. S. Yang and S. H. Guo, On using the Kane-Mindlin theory in the analysis of cracks in plates, Int. J. Fracture, 133, L13-L17, 2005.

[100] J. S. Yang, A review of analyses related to vibrations of rotating piezoelectric bodies and gyroscopes, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 698-706, 2005.

[99] J. S. Yang, X. M. Yang and J. A. Turner, Amplification of acoustic waves in piezoelectric semiconductor shells, Journal of Intelligent Material Systems and Structures, 16, 613-621, 2005.

[98] J. S. Yang, H. G. Zhou and W. P. Zhang, Thickness-shear vibration of rotated Y-cut quartz plates with relatively thick electrodes of unequal thickness, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 918-922, 2005.

[97] J. S. Yang and H. G. Zhou, Propagation and amplification of gap waves between a piezoelectric half-space and a semiconductor film, Acta Mechanica, 176, 83-93, 2005.

[96] X. F. Li and J. S. Yang, Electromagnetoelastic behavior induced by a crack under antiplane mechanical and inplane electric impacts, International Journal of Fracture, 132, 49-65, 2005.

[95] J. S. Yang, Free vibrations of an electroelastic body under biasing fields, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 358-364, 2005.

[94] J. S. Yang and H. G. Zhou, Amplification of acoustic waves in piezoelectric semiconductor plates, Int. J. Solids Structures, 42, 3171-3183, 2005.

[93] J. S. Yang and H. G. Zhou, Interface waves between two piezoelectric half-spaces with a semiconductor film, J. Zhejiang University-Science, 6A, 90-96, 2005.

[92] J. S. Yang and H. G. Zhou, Vibrations of an isotropic elastic wedge, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 52, 139-144, 2005.

[91] J. S. Yang and J. Wang, Energy trapping of thickness modes in resonant piezoelectric devices, a review, J. Ningbo University, 17 sup., 128-134, 2004.

[90] Y. Zeng, Y. T. Hu and J. S. Yang, Electric field gradient effect in a Mode III crack in piezoelectrics, J. Ningbo University, 17 sup., 1-5, 2004 (in Chinese).

[89] J. S. Yang, A semi-infinite anti-plane crack in a piezoelectric semiconductor, International Journal of Fracture, 130, L169-174, 2004.

[88] J. S. Yang, Y. T. Hu and X. H. Yang, The biasing field method in electroelasticity and its application, Advances in Applied Mechanics (in Chinese), 34, 408-426, 2004.

[87] J. S. Yang and X. M. Yang, Electric field gradient effect and thin film capacitance, World Journal of Engineering, 2, 41-45, 2004.

[86] J. S. Yang, Shear horizontal vibrations of a piezoelectric/ferroelectric wedge, Acta Mechanica, 173, 13-17, 2004.

[85] J. S. Yang, X. M. Yang and J. A. Turner, Amplification of acoustic waves in laminated piezoelectric semiconductor plates, Archive of Applied Mechanics, 74, 288-298, 2004.

[84] Y. T. Hu, J. S. Yang and Q. Jiang, Wave propagation in electrostrictive materials under biasing fields, Acta Mechanica Solida Sinica, 17, 209-217, 2004.

[83] J. S. Yang, A moving dislocation in piezoelectromagnetic ceramics, Acta Mechanica, 172, 123-129, 2004.

[82] J. S. Yang and H. G. Zhou, Acoustoelectric amplification of piezoelectric surface waves, Acta Mechanica, 172, 113-122, 2004.

[81] J. S. Yang, Frequency shifts in a piezoelectric body due to small amounts of additional mass on its surface, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 51, 1199-1202, 2004.

[80] X. M. Yang, Y. T. Hu and J. S. Yang, Electric field gradient effects in anti-plane problems of polarized ceramics, Int. J. Solids Structures, 41, 6801-6811, 2004.

[79] J. S. Yang and J. A. Kosinski, Effects of piezoelectric coupling on energy trapping of thickness-shear modes, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 51, 1047-1049, 2004.

[78] J. S. Yang, Effects of electric field gradient on an anti-plane crack in piezoelectric ceramics, International Journal of Fracture, 127, L111-L116, 2004.

[77] J. S. Yang, Effects of electromagnetic coupling on a moving crack in polarized ceramics, International Journal of Fracture, 126, L83-L88, 2004.

[76] J. S. Yang, Piezoelectromagnetic waves in a ceramic plate, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 51, 1035-1039, 2004.

[75] J. S. Yang, Love waves in piezoelectromagnetic materials, Acta Mechanica, 168, 111-117, 2004.

[74] J. S. Yang, Variational formulation of the equations for small fields superposed on finite biasing fields in an electroelastic body, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 51, 1030-1034, 2004.

[73] J. S. Yang and Y. T. Hu, Mechanics of electroelastic bodies under biasing fields, Applied Mechanics Reviews, 57, 173-189, 2004.

[72] Y. T. Hu, J. S. Yang and Q. Jiang, Surface waves in electrostrictive materials under biasing fields, ZAMP, 55, 678-700, 2004.

[71] J. S. Yang and H. Y. Fang, A new ceramic tube piezoelectric gyroscope, Sensors and Actuators A, 107, 42-49, 2003.

[70] J. S. Yang, X. Zhang, J. A. Kosinski and R. A. Pastore, Jr., Thickness-shear vibrations of a quartz plate under time-dependent biasing deformations, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 50, 1114-1123, 2003.

[69] J. S. Yang and H. Y. Fang, ,A piezoelectric gyroscope based on extensional vibrations of rods, International Journal of Applied Electromagnetics and Mechanics, 17, 289-300, 2003.

[68] J. S. Yang, X. M. Yang, J. A. Turner, J. A. Kosinski and R. A. Pastore, Jr., Two-dimensional equations for electroelastic plates with relatively large shear deformations, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 50, 765-772, 2003.

[67] Y. T. Hu, X. Zhang, J. S. Yang and Q. Jiang, Transmitting electric energy through a metal wall by acoustic waves using piezoelectric transducers, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 50, 773-781, 2003.

[66] J. S. Yang, Equations for small fields superposed on finite biasing fields in a thermoelectroelastic body, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 50, 187-192, 2003.

[65] J. S. Yang and X. Zhang, Vibrations of a constrained crystal plate under a thermal bias, J. Thermal Stresses, 26, 467-477, 2003.

[64] Y. T. Hu, J. S. Yang and Q. Jiang, Analysis of 2D piezoelectric strips and semi-strips, ZAMP, 54, 149-159, 2003.

[63] J. S. Yang and X. Zhang, Extensional vibration of a nonuniform piezoceramic rod and high voltage generation, International Journal of Applied Electromagnetics and Mechanics, 16, 29-42, 2002.

[62] H. Y. Fang, J. S. Yang and Q. Jiang, Rotation sensitivity of waves propagating in a rotating piezoelectric plate, Int. J. of Solids and Structures, 39, 5241-5251, 2002.

[61] J. S. Yang and X. Zhang, A high sensitivity pressure sensor, Sensors and Actuators A, 101, 332-337, 2002.

[60] Y. T. Hu, C. Chen, G. Li, J. S. Yang and Q. Jiang, Basic curvilinear coordinate equations of electroelastic plates under biasing fields with applications in buckling analysis, Acta Mechanica Solida Sinica, 15, 189-200, 2002.

[59] Y. T. Hu, J. S. Yang and Q. Jiang, Characterization of electroelastic beams under biasing fields with applications in buckling analysis, Archive of Applied Mechanics, 72, 439-450, 2002.

[58] Y. T. Hu, J. S. Yang and Q. Jiang, On modeling of extension and flexure response of electroelastic shells under biasing fields, Acta Mechanica, 156, 163-178, 2002.

[57] Y. T. Hu, J. S. Yang and Q. Jiang, A model of electroelastic plates under biasing fields with applications in buckling analysis, International Journal of Solids and Structures, 39, 2629-2642, 2002.

[56] J. S. Yang and Y. J. Liu, Boundary formulation and numerical analysis of elastic bodies with surface bounded piezoelectric films, Smart Materials and Structures, 11, 308-311, 2002.

[55] J. S. Yang and H. Y. Fang, Analysis of a rotating elastic beam with piezoelectric films as an angular rate sensor, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 49, 798-804, 2002.

[54] J. S. Yang, Bleustein-Gulyaev waves in strained piezoelectric ceramics, Mechanics Research Communications, 28, 679-683, 2001.

[53] J. S. Yang, H. Y. Fang and Q. Jiang, One-dimensional equations for a piezoelectric ring and applications in a gyroscope, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 48, 1275-1282, 2001.

[52] H. Y. Fang, J. S. Yang and Q. Jiang, Surface waves propagating over a rotating piezoelectric half-space, IEEE Trans. Ultrason., Ferroelect., Freq. Contr., 48, 998-1004, 2001.

[51] J. S. Yang, Bleustein-Gulyaev waves in piezoelectromagnetic materials, International Journal of Applied Electromagnetics and Mechanics, 12, 235-240, 2000.

[50] J. S. Yang, H. Y. Fang and Q. Jiang, A vibrating piezoelectric ceramic shell as a rotation sensor, Smart Materials and Structures, 9, 445-451, 2000.

[49] J. Wang and J. S. Yang, Higher-order theories of piezoelectric plates and applications, Applied Mechanics Reviews, 53, 87-99, 2000.

[48] Y. J. Liu, H. Fan and J. S. Yang, Analysis of the shear stress transferred from a partially electroded piezoelectric actuator to an elastic substrate, Smart Materials and Structures, 9, 248-254, 2000.

[47] H. Y. Fang, J. S. Yang and Q. Jiang, Rotation perturbed surface acoustic waves propagating in piezoelectric crystals, International Journal of Solids and Structures, 37, 4933-4947, 2000.

[46] J. S. Yang, H. Y. Fang and Q. Jiang, Analysis of a ceramic bimorph piezoelectric gyroscope, International Journal of Applied Electromagnetics and Mechanics, 10, 459-473, 1999.

[45] Shankar Krishnaswamy and J. S. Yang, On a special class of boundary-value problems in the theory of shells and plates, Thin-Walled Structures, 35, 139-152, 1999.

[44] J. S. Yang, H. Y. Fang and Q. Jiang, Equations for a piezoelectric parallelepiped and applications in a gyroscope, International Journal of Applied Electromagnetics and Mechanics, 10, 337-350, 1999.

[43] J. S. Yang, A nonlinear theory for thin piezoelectric plates in moderately large extensional deformations, Mechanics Research Communications, 26, 421-426, 1999.

[42] J. S. Yang and Shankar Krishnaswamy, An approximate analysis of thickness-stretch waves in an elastic plate, Wave Motion, 30, 291-301, 1999.

[41] J. S. Yang, Equations for the extension and flexure of electroelastic plates under strong electric fields, Int. J. of Solids and Structures, 36, 3171-3192, 1999.

[40] J. S. Yang, Equations for thick elastic plates with partially electroded piezoelectric actuators and higher order electric fields, Smart Materials and Structures, 8, 73-82, 1999.

[39] J. S. Yang and W. Zhang, A thickness-shear high voltage piezoelectric transformer, Int. J. of Applied Electromagnetics and Mechanics, 10, 105-121, 1999.

[38] J. S. Yang, H. Fang and Q. Jiang, Thickness vibrations of rotating piezoelectric plates, J. Acoust. Soc. Am., 104, 1427-1435, 1998.

[37] J. S. Yang, Equations for the extension and flexure of a piezoelectric beam with rectangular cross section and applications, Int. J. of Appl. Electromagnetics and Mechanics, 9, 409-420, 1998.

[36] J. S. Yang, Buckling of a piezoelectric plate, Int. J. of Appl. Electromagnetics and Mechanics, 9, 399-408, 1998.

[35] J. S. Yang, Nonlinear equations of thermoviscoelectroelasticity, Mathematics and Mechanics of Solids, 3, 113-124, 1998.

[34] J. S. Yang, Equations for the flexural motion of elastic plates with partially electroded piezoelectric actuators, Smart Mater. Strut., 6, 485-490, 1997.

[33] J. S. Yang, Analysis of ceramic thickness shear piezoelectric gyroscopes, J. Acoust. Soc. Am., 102, 3542-3548, 1997.

[32] J. S. Yang, Equations for elastic plates with partially electroded piezoelectric actuators in flexure with shear deformation and rotary inertia, Journal of Intelligent Material Systems and Structures, 8, 444-451, 1997.

[31] J. S. Yang, Thin film capacitance in case of a non-local polarization law, Int. J. of Appl. Electromagnetics and Mechanics, 8, 307-314, 1997.

[30] J. S. Yang, A circular cylindrical shell piezoelectric gyroscope, Int. J. of Appl. Electromagnetics and Mechanics, 8, 259-271, 1997.

[29] J. S. Yang and H. F. Tiersten, Elastic analysis of the transfer of shearing stress from partially electroded piezoelectric actuators to composite plates in cylindrical bending, Smart Mater. Strut., 6, 333-340, 1997.

[28] R. C. Batra, X. Q. Liang and J. S. Yang, Shape control of a vibrating simply supported rectangular plate by using piezoelectric actuators, AIAA Journal, 34, 1, 116-122, 1996.

[27] R. C. Batra, X. Q. Liang and J. S. Yang, The vibration of a simply supported rectangular elastic plate due to piezoelectric actuators, Int. J. Solids Structures, 33, 1597-1618, 1996.

[26] P. C. Y. Lee, J. S. Yang, J. D. Yu and A. Ballato, Stress sensitivity of electromagnetic resonances in circular dielectric disks, J. Appl. Phys., 79, 1224-1232, 1996.

[25] J. S. Yang and X. Y. Wu, The vibration of an elastic dielectric with piezoelectromagnetism, Quarterly of Applied Mathematics, 53, 753-760, 1995.

[24] J. S. Yang and R. C. Batra, Mixed variational principles in nonlinear electroelasticity, International Journal of Nonlinear Mechanics, 30, 719-725, 1995.

[23] J. S. Yang and R. C. Batra, Conservation laws in linear piezoelectricity, Engineering Fracture Mechanics, 51, 1041-1047, 1995.

[22] R. C. Batra and J. S. Yang, Saint-Venant's principle for linear elastic porous materials, Journal of Elasticity, 39, 265-271, 1995.

[21] J. S. Yang and R. C. Batra, Free vibrations of a linear thermopiezoelectric body, Journal of Thermal Stresses, 18, 247-262, 1995.

[20] R. C. Batra and J. S. Yang, Saint-Venant's principle in linear piezoelectricity, Journal of Elasticity, 38, 209-218, 1995.

[19] R. C. Batra and J. S. Yang, Second-order constitutive relations for transversely isotropic piezoelectric porous materials, J. Acoust. Soc. Am., 97, 2595-2598, 1995.

[18] J. S. Yang and R. C. Batra, Thickness shear vibrations of a circular cylindrical piezoelectric shell, J. Acoust. Soc. Am., 97, 309-312, 1995.

[17] J. S. Yang and R. C. Batra, A second order theory for piezoelectric materials, J. Acoust. Soc. Am., 97, 280-288, 1995.

[16] J. S. Yang, Variational formulations for the vibration of a piezoelectric body, Quarterly of Applied Mathematics, 53, 95-104, 1995.

[15] J. S. Yang, R. C. Batra and X. Q. Liang, The cylindrical bending vibration of a laminated elastic plate due to piezoelectric actuators, Smart Mater. Strut., 3, 485-493, 1994.

[14] J. S. Yang and R. C. Batra, Free vibrations of a piezoelectric body, Journal of Elasticity, 34, 239-254, 1994.

[13] J. S. Yang and R. C. Batra, A theory of for electroded thin thermopiezoelectric plates subject to large driving voltages, J. Appl. Phys., 76, 5411-5417, 1994.

[12] P. C. Y. Lee, J. S. Yang and A. Ballato, Stress sensitivity of resonances of transverse electric modes in circular disk dielectric resonators, J. Appl. Phys., 76, 63-72, 1994.

[11] P. C. Y. Lee and J. S. Yang, Vibrations of circular disk dielectric resonators, J. Appl. Phys., 73, 7083-7092, 1993.

[10] P. C. Y. Lee and J. S. Yang, Two-dimensional equations for guided EM waves in dielectric plates surrounded by a vacuum, J. Appl. Phys., 73, 7069-7082, 1993.

[9] J. S. Yang and J. D. Yu, Equations for a laminated piezoelectric plate, Arch. Mech., 45, 653-664, 1993.

[8] J. S. Yang, Variational formulations for the vibration of a piezoelectric plate, Arch. Mech., 45, 639-651, 1993.

[7] J. S. Yang, Variational principles for the vibration of an elastic dielectric, Arch. Mech., 45, 279-284, 1993.

[6] J. S. Yang, The Vibration of a circular plate with varying thickness, Journal of Sound and Vibration, 165, 178-184, 1993.

[5] J. S. Yang, A few properties of the resonant frequencies of a piezoelectric body, Arch. Mech., 44, 475-477, 1992.

[4] J. S. Yang, A generalized variational principle for piezoelectromagnetism in an elastic medium, Arch. Mech., 43, 795-798, 1991.

[3] M. Su and J. S. Yang, Interaction between vertical cylinder and wave, Advances in Hydrodynamics, 1, 30-36, 1986, (in Chinese).

[2] Z. Xu, Y. Liu, J. S. Yang and Z. Xie, Large deflection of a U-shaped bellows with varying thickness, J. of Tsinghua Univ., 25, 39-51, 1985, (in Chinese).

[1] J. S. Yang and Z. Xie, Perturbation method in the problem of large deflections of circular plates with nonuniform thickness, Appl. Math. and Mech., 5, 1237-1242, 1984.