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Waves in Random and Complex Media Volume 34, 2024 - Issue 2
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Research Articles

Plane wave propagation and fundamental solution in non-local couple stress micropolar thermoelastic solid medium with voids

PoonamDepartment of Mathematics, Deenbandhu Chhotu Ram University of Science and Technology, Murthal, IndiaORCID Iconhttps://orcid.org/0000-0003-1201-5261
ORCID Icon,
Ravinder Kumar SahrawatDepartment of Mathematics, Deenbandhu Chhotu Ram University of Science and Technology, Murthal, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-0200-311X
ORCID Icon &
Krishan KumarDepartment of Mathematics, Deenbandhu Chhotu Ram University of Science and Technology, Murthal, IndiaORCID Iconhttps://orcid.org/0000-0002-5067-6952
ORCID Icon
Pages 879-914 | Received 29 Jul 2020, Accepted 12 Apr 2021, Published online: 05 May 2021

References

  • Eringen AC. Nonlocal polar elastic continua. Int J Eng Sci. 1972;10:1–16.
  • Eringen AC. Linear theory of nonlocal elasticity and dispersion of plane waves. Int J Eng Sci. 1972;10:425–435.
  • Eringen AC. Nonlocal continuum field theories. New York: Springer-Verlag; 2002.
  • Eringen AC, Edelen DGB. On nonlocal elasticity. Int J Eng Sci. 1972;10:233–248.
  • Chen Y, Lee JD, Eskandarian A. Atomistic viewpoint of the applicability of microcontinuum theories. Int J Solids Struct. 2004;41:2085–2097.
  • Eringen AC. Foundations of micropolar thermoelasticity. Berlin: Springer-Verlag; 1970 (Int J Eng Sci; 23).
  • Eringen AC. Microcontinum field theories I. Foundations and solids. Berlin: Springer-Verlag; 1999.
  • Nowacki W. Theory of asymmetric elasticity. Pergamon: Oxford; 1986.
  • Boschi E, Iesan D. A generalised theory of linear micropolar thermoelasticity. Meccanica. 1973;7:154–157.
  • Green AE, Naghdi PM. A re-examination of basic postulates of thermomechanics. Proc R Soc Lond A. 1991;432:171–194.
  • Green AE, Naghdi PM. On thermodynamics and nature of second law. Proc R Soc Lond A. 1977;357:253–270.
  • Green AE, Naghdi PM. Thermoelasticity without energy dissipation. J Elas. 1993;31:189–208.
  • Ciarletta M. A theory of micropolar thermoelasticity without energy dissipation. J Therm Stresses. 1999;22:581–594.
  • Nunziato JW, Cowin SC. A nonlinear theory of elastic materials with voids. Arch Rational Mech Anal. 1979;189:175–201.
  • Nunziato JW, Cowin SC. Linear elastic materials with voids. J Elas. 1983;13:125–147.
  • Puri P, Cowin SC. Plane waves in linear elastic materials with voids. J Elas. 1985;15:167–183.
  • Iesan D. A theory of thermoelastic materials with voids. Acta Mech. 1986;60:67–89.
  • Iesan D. A theory of initially stressed thermoelastic materials with voids. An Stiint Univ Ai I Cuza Lasi Sect I a Mat. 1987;33:167–184.
  • Dhaliwal RS, Wang J. A heat flux dependent theory of thermoelasticity with voids. Acta Mech. 1995;110:33–39.
  • Chirita S, Scalia A. On the spatial and temporial behaviour in linear thermoelasticity for materials with voids. J Therm Stresses. 2001;24:433–455.
  • Pompei P, Scalia A. On the asymptotic spatial behaviour in linear thermoelasticity for materials with voids. J Therm Stresses. 2002;25:349–357.
  • Hetnarski RB. The fundamental solution of the coupled thermoelastic problem for small times. Arch Mech Stosow. 1964;16:23–31.
  • Hetnarski RB. Solution of the coupled problem of thermoelasticity in the form of a stress of a function. Arch Mech Stosow. 1964;16:919–941.
  • Iesan D. On the theory of thermoelasticity without energy dissipation. J Therm Stresses. 1998;21:295–307.
  • Kupradze VD, Gegelia TG, Basheleishvili MO, et al. Three dimensional problems of the mathematical theory of elasticity and thermoelasticity. Amsterdam: North-Holland Publ. Company; 1979.
  • Gurtin ME. The linear theory of elasticity. In: Truesdel C, editors. Handbuch der Physik VIa/2. Berlin: Springer; 1972.
  • Nowacki W. Dynamic problems of thermoelasticity. Leiden: Noordhoff; 1975.
  • Svanadze M. The fundamental matrix of linearized equations of the theory of elastic mixtures. Proc I Vekua Inst Appl Math Tbilisi State Univ. 1988;23:133–148.
  • Svanadze M. The fundamental solution of the oscillation equations of the thermoelasticity theory of mixtures of two solids. J Therm Stresses. 1996;19:633–648.
  • Svanadze M. Fundamental solutions of the equations of the theory thermoelasticity with microtemperatures. J Therm Stresses. 2004;27:151–170.
  • Svanadze M. Fundamental solutions of the equations of steady oscillations in the theory of microstretch elastic solids. Int J Eng Sci. 2004;42:1897–1910.
  • Svanadze M, Tibullo V, Zampoli V. Fundamental solution in the theory of micropolar thermoelasticity without energy dissipation. J Therm Stresses. 2006;29:57–66.
  • Ciarletta M, Scalia A, Svanadze M. Fundamental solution in the theory of micropolar thermoelasticity for materials with voids. J Therm Stresses. 2007;30:213–229.
  • Hörmander L. Linear partial differential operators. Berlin: Springer-Verlag; 1963.
  • Hörmander L. The analysis of linear partial differential operators II: differential operators with constant coefficients. Berlin: Springer-Verlag; 1983.
  • Sharma K, Kumar P. Propagation of plane waves and fundamental solution in thermoviscoelastic medium with voids. J Therm Stresses. 2013;36:94–111.
  • Scarpetta E. On the fundamental solution in micropolar elasticity with voids. J Therm Stresses. 1990;82:151–158.
  • Kumar R, Kumar K, Nautiyal RC. Plane wave and fundamental solution in a couple stress generalized thermoelastic solid. Afrika Math. 2014;24:591–603.
  • Kolsky H. Stress waves in solids. New York: Dover Publications; 1963.
  • Kumar R, Sharma K. Reflection of plane waves in a transversely isotropic micropolar viscothermoelastic solid. Mat Phys Mech. 2015;22:1–14.
  • Bachher M, Sarkar N. Non-local theory of thermoelastic materials with voids and functional derivative heat transfer. Waves Random Complex Media. 2018;29:1–19.
  • Sahrawat RK, Poonam, Kumar K. Plane wave and fundamental solution in non-local couple stress micropolar thermoelastic solid without energy dissipation. J Therm Stress. 2020;44:1–20. Available from: https://doi.org/10.1080/01495739.2020.1860728
  • Poonam, Sahrawat RK, Kumar K. Plane wave propagation in functionally graded isotropic couple stress thermoelastic solid media under initial stress and gravity. Eur Phys J Plus. 2021;136:1–32.
  • Sahrawat RK, Poonam, Kumar K. Wave propagation in nonlocal couple stress thermoelastic solid. AIP Conf Proc. 2020;2253:1–14. Available from: https://doi.org/10.1063/5.0018979
  • Abo-Dahab SM, Rida SZ, Mohamed RA, et al. Rotation, initial stress, gravity and electromagnetic field effect on P wave reflection from stress-free surface elastic half-Space with voids under three thermoelastic models. J Mech Mech Eng. 2018;22:313–328.
  • Abd-Alla AM, Abo-Dahab SM, Kilany AA. SV-waves incidence at interface between solid-liquid media under electromagnetic field and initial stress in the context of three thermoelastic theories. J Therm Stresses. 2016;39:960–976.
  • Kilany A, Abo-Dahab S, Abd-Alla A, et al. Photothermal and void effect of a semiconductor rotational medium based on Lord-Shulman theory. Mech Based Des Struct Mach. doi:10.1080/15397734.2020.1780926
  • Abo-Dahab SM, Abd-Alla AM, Kilany AA. Electromagnetic field in fiber reinforced micropolar thermoelastic medium using four models. J Ocean Eng Sci. 2020;5:230–248.
  • Abo-Dahab SM, Abd-Alla AM, Kilany AA. Effect of several fields on a generalized thermoelastic medium with voids in the context of Lord–Shulman or dual-phase-lag models. Mech Based Des Struct Mach. doi:10.1080/15397734.2020.1823852
  • Abo-Dahab SM, Abd-Alla AM, Kilany AA. Effects of rotation and gravity on an electro-magneto-thermoelastic medium with diffusion and voids by using the Lord–Shulman and dual-phase-lag models. Appl Math Mech (Engl Ed). 2019;40:1135–1154.

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