[1] Cady, W. G. Piezoelectricity, McGraw-Hill, New York (1946)
[2] Auld, B. A. Acoustic Field and Waves in Solids, Vol. II, Wiley InterScience, New York, 423 (1973)
[3] Auld, B. A. Acoustic Fields and Waves in Solids, Vol. I, Keieger Publishing Company, Malabar, Florida (1990)
[4] Ikeda, T. Fundamentals of Piezoelectricity, Oxford University Press, New York, 65-66 (1996)
[5] Arnau, A. Piezoelectric Transducers and Applications, 1st ed., Springer, New York (2004)
[6] Arnau, A. Piezoelectric Transducers and Applications, 2nd ed., Springer, New York (2008)
[7] Knott, C. G. Reflection and refraction of elastic waves with seismological applications. Philosophical Magazine, 48, 64-97 (1899)
[8] Crampin, S. and Taylor, D. B. The propagation of surface waves in anisotropic media. Geophysical Journal of the Royal Astronomical Society, 25, 71-87 (1971)
[9] Crampin, S. Distinctive particle motion of surface waves as a diagnostic of anisotropic layering. Geophysical Journal of the Royal Astronomical Society, 40, 177-186 (1975)
[10] Achenbach, J. D. Wave Propagation in Elastic Solids, North Holland Pub., Amsterdam (1973)
[11] Pal, A. K. and Chattopadhyay, A. The reflection phenomenon of plane waves at a free boundary in a pre-stressed elastic half-space. Journal of the Acoustical Society of America, 76(3), 924-925 (1984)
[12] Borejko, P. Reflection and transmission coefficients for three-dimensional plane waves in elastic media. Wave Motion, 24, 371-393 (1996)
[13] Ogden, R. W. and Sotirropoulos, D. The effect of pre-stress on the propagation and reflection of plane waves in incompressible elastic solids. IMA Journal of Applied Mathematics, 59, 95-121 (1997)
[14] Ogden, R. W. and Sotirropoulos, D. Reflection of plane wave from the boundary of a pre-stressed compressible elastic half-space. IMA Journal of Applied Mathematics, 61, 61-90 (1998)
[15] Chattopadhyay, A. and Rogerson, G. A.Wave reflection in slightly compressible, finitely deformed elastic media. Archive of Applied Mechanics, 71, 307-316 (2001)
[16] Chattopadhyay, A. Wave reflection in triclinic crystalline medium. Archive of Applied Mechanics, 76, 65-74 (2006)
[17] Deschamps, M. Reflection and refraction of the evanescent plane wave on plane interfaces. Journal of the Acoustical Society of America, 96, 2841-2848 (1991)
[18] Lord, H. W. and Shulman, Y. A generalized dynamical theory of thermoelasticity. Journal of the Mechanics and Physics of Solids, 15, 299-309 (1967)
[19] Green, A. E. and Lindsay, K. A. Thermoelasticity. Journal of Elasticity, 2, 1-7 (1972)
[20] Deresiewicz, H. Effect of boundaries on waves in a thermoelastic solid: reflection of plane wave from plane boundary. Journal of the Mechanics and Physics of Solids, 8, 164-172 (1960)
[21] Sinha, A. N. and Sinha, S. B. Reflection of thermoelastic waves at a solid half-space with thermal relaxation. Journal of Physics of the Earth, 22, 237-244 (1974)
[22] Singh, B. Reflection of plane sound wave from a micropolar generalized thermoelastic solid half-space. Journal of Sound and Vibration, 235, 685-696 (2000)
[23] Sinha, S. B. and Elsibai, K. A. Reflection and refraction of thermoelastic wave at an interface of two semi-infinite media with two thermal relaxation times. Journal of Thermal Stresses, 20, 129-146 (1997)
[24] Abd-Alla, A. N. and Al-Dawy, A. S. The reflection phenomenon of SV waves in a generalized thermoelastic medium. International Journal of Mathematics and Mathematical Sciences, 23, 529-546 (2000)
[25] Sharma, J. N., Kumar, V., and Chand, D. Reflection of generalized thermoelastic wave from the boundary of a half-space. Journal of Thermal Stresses, 26, 925-942 (2003)
[26] Deschamps, M. and Cheng, C. Liquid-thermoviscoelastic solids interface. Ultrasonics, 27, 308-313 (1989)
[27] Parton, V. Z. and Kudryavtsev, B. A. Electromagnetoelasticity, Piezoelectrics and Electrically Conductive Solids, Gorden and Breach, New York, 503 (1988)
[28] Noorbehesht, B. and Wade, G. Spatial frequency characteristics of opto-acoustic transducers. Acoustical Imaging (ed. Wang, K. Y.), Vol. 9, Plenum, New York, 139-154 (1980)
[29] Noorbehesht, B. and Wade, G. Reflection and transmission of plane elastic waves at the boundary between piezoelectric materials and water. Journal of the Acoustical Society of America, 67(6), 1947-1953 (1980)
[30] Nayfeh, A. D. and Chien, H. T. The influence of piezoelectricity on free and reflected waves from fluid loaded anisotropic plates. Journal of the Acoustical Society of America, 91(3), 1250-1261 (1992)
[31] Nayfeh, A. D. and Chien, H. T. Wave propagation interaction with free and fluid loaded piezo-electric substrates. Journal of the Acoustical Society of America, 91(6), 3126-3135 (1992)
[32] Mindlin, R. D. On the equations of motion of piezoelectric crystals. Problem of Continuum 290 Mechanics (ed. Muskhelishvili, N. I.), 70th Birthday Volume, SIAM, Philadelphia, 282-290 (1961)
[33] Mindlin, R. D. Equations of high frequency vibrations of thermopiezoelectric crystal plates. International Journal of Solids and Structures, 10, 625-637 (1974)
[34] Nowacki, W. Some general theorems of thermopiezoelectricity. Journal of Thermal Stresses, 1, 171-182 (1978)
[35] Chandrasekharairh, D. S. A temperature rate dependent theory of thermoelasticity. Journal of Thermal Stresses, 7, 293-306 (1984)
[36] Sharma, J. N. and Pal, M. Propagation of Lamb waves in a transversely isotropic piezothermoe-lastic plate. Journal of Sound and Vibration, 270, 587-610 (2004)
[37] Sharma, J. N., Kumar, V., and Chand, D. Reflection of generalized thermoelastic waves from boundary of a half space. Journal of Thermal Stresses, 26, 925-942 (2003)
[38] Sharma, J. N., Walia, V., and Gupta, S. K. Effect of rotation and thermal relaxation on Rayleigh waves in piezothermoelastic half space. International Journal of Mechanical Sciences, 50(3), 433-444 (2008)
[39] Sharma, M. D. Propagation of inhomogeneous waves in anisotropic piezo-thermoelastic media. Acta Mechanica, 25, 307-318 (2010)
[40] Sharma, J. N., Walia, V., and Gupta, S. K. Reflection of piezothermoelastic waves from the charge and stress free boundary of a transversely isotropic half space. International Journal of Engineering Science, 46, 131-146 (2008)
[41] Mott, G. Reflection and refraction coefficients at a fluid-solid interface. Journal of the Acoustical Society of America, 50, 819-829 (1970)
[42] Singh, B. Plane waves in a thermally conducting viscous liquid. Sadhna, 29(1), 27-34 (2004)
[43] Vashishth, A. K. and Sharma, M. D. Reflection and refraction of acoustic waves at poroelastic ocean bed. Earth Planet Space, 61, 675-687 (2009)
[44] Scott, N. H. Energy and dissipation of inhomogeneous plane waves in thermoelasticity. Wave Motion, 23, 393-406 (1996)
[45] Kuang, Z. B. and Yuan, X. G. Reflection and transmission of waves in pyroelectric and piezoelectric materials. Journal of Sound and Vibration, 330, 1111-1120 (2011)
[46] Vashishth, A. K. and Gupta, V. Reflection and transmission of plane waves from a fluid-porous piezoelectric solid interface. Journal of the Acoustical Society of America, 129(6), 3690-3701 (2011)
[47] Krebes, E. S. The viscoelastic reflection/transmission problem: two special cases. Bulletin of the Seismological Society of America, 73(6), 1673-1683 (1983)
[48] Stoll, R. D. and Kan, T. K. Reflection of acoustic waves at a water-sediment interface. Journal of the Acoustical Society of America, 70, 149-156 (1981)
[49] Borcherdt, R. D., Glassmoyer, G., and Wennerberg, L. Influence of welded boundaries in anelastic media on energy flow, and characterestics of P, S-I and S-II waves: observational evidence for inhomogeneous body waves in low-loss solids. Journal of Geophysical Research, 91(B11), 11503-11518 (1986)
[50] Ankan, O., Telatar, E., and Atalar, A. Reflection coefficient null of acoustic waves at a liquid-anisotropic solid interface. Journal of the Acoustical Society of America, 85(1), 1-10 (1989)
[51] Mayer, G. W. Reflection and refraction of mechanical waves at solid liquid boundaries. Journal of Applied Physics, 34, 909-912 (1963)
Email Alert
RSS