Propagation of Waves at an Interface of Heat Conducting Elastic Solid and Micropolar Fluid Media
Subject Areas : EngineeringR Kumar 1 , M Kaur 2 , S.C Rajvanshi 3
1 - Department of Mathematics, Kurukshetra University
2 - Department of Applied Sciences, Guru Nanak Dev Engineering College, Ludhiana
3 - Department of Applied Sciences, Gurukul Vidyapeeth, Institute of Engineering and Technology
Keywords:
Abstract :
[1] Eringen A.C., 1964, Simple microfluids, International Journal of Engineering Science 2: 205-217.
[2] Eringen A.C., 1966 a, Theory of microfluids, Journal of Applied Mathematics and Mechanics 16: 1-18.
[3] Ariman T., Sylvester N.D., Turk M.A., 1973, Microcontinuum fluid mechanics-a review, International Journal of Engineering Science 11: 905-930.
[4] Ariman T., Sylvester N.D., Turk M.A., 1974, Review article applications of microcontinuum fluid mechanics, International Journal of Engineering Science 12: 273-293.
[5] Riha P., 1975, On the theory of heat-conducting micropolar fluid with microtemperature, Acta Mechanica 23: 1-8.
[6] Eringen A.C., Kafadar C.B.,1976, Polar Field Theories, In Continuum Physics ,Edited by A.C. Eringen, Vol. IV. Academic Press, New York.
[7] Brulin O., 1982, Linear Micropolar Media, In Mechanics of Micropolar Media ,Edited by O. Brulin and R.K.T. HSIEH, World Scientific, Singapore.
[8] Gorla R.S.R.,1989, Combined forced and free convection in the boundary layer flow of a micropolar fluid on a continuous moving vertical cylinder, International Journal of Engineering Science 27: 77-86.
[9] Eringen A.C., 1990, Theory of Microstretch and Bubbly Liquid, International Journal of Engineering Science 28: 133-143.
[10] Aydemir N.U., Venart J.E.S., 1990, Flow of a thermomicropolar fluid with stretch, International Journal of Engineering Science 28: 1211-1222.
[11] Hsia S.Y., Cheng J.W., 2006, Longitudinal plane waves propagation in elastic micropolar porous media, Japanese Journal of Applied Physics 45: 1743-1748.
[12] Hsia S.Y., Chiu S.M., Su C.C., Chen T.H., 2007, Propagation of transverse waves in elastic micropolar porous semispaces, Japanese Journal of Applied Physics 46: 7399-7405.
[13] Biot M., 1956, Thermoelasticity and Irreversible Thermodynamics, Journal of Applied Physics 27: 240-253.
[14] Lord H., Shulman Y., 1967, A generalized dynamical theory of thermoelasticity, Journal of the Mechanics and Physics of Solids 15: 299-309.
[15] Green A.E., Lindsay K.A., 1972, Thermoelasticity, Journal of Elasticity 2: 1-7.
[16] Dhaliwal R.S., Singh A., 1980, Dynamic Coupled Thermoelasticity, Hindustan Publication Corporation, New Delhi, India.
[17] Ignaczak J., Starzewski M.O., 2010, Thermoelasticity with Finite Wave Speeds, Oxford Science Publisher.
[18] Tomar S.K., Gogna M.L., 1992, Reflection and refraction of a longitudinal microrotational wave at an interface between two micropolar elastic solids in welded contact, International Journal of Engineering Science 30: 1637-1646.
[19] Tomar S.K., Gogna M.L., 1995 a, Reflection and refraction of a longitudinal displacement wave at an interface between two micropolar elastic solids in welded contact, Journal of the Acoustical Society of America 97: 827-830.
[20] Tomar S.K., Gogna M.L., 1995 b, Reflection and refraction of a coupled transverse and microrotational waves at an interface between two different micropolar elastic solids in welded contact, International Journal of Engineering Science 30: 485-496.
[21] Kumar R., Sharma N., Ram P., 2008 a, Reflection and transmission of micropolar elastic waves at an imperfect boundary, Multidiscipline Modelling in Materials and Structures (MMMS) 4: 15-36.
[22] Kumar R., Sharma N., Ram P., 2008 b, Interfacial imperfection on reflection and transmission of plane waves in anisotropic micropolar media, Theoretical and Applied Fracture Mechanics 49: 305-312.
[23] Singh D., Tomar S. K., 2008, Longitudinal waves at a micropolar fluid/solid interface, International Journal of Solids And Structures 45: 225-244.
[24] Ciarletta M., 2001, Spatial decay estimates for heat conducting micropolar fluids, International Journal of Engineering Science 39: 655-668.
