How to cite this paper
Kumar, R., Batra, D & Sharma, S. (2025). Thermoelastic medium with swelling porous structure and impedance boundary under dual-phase lag.Engineering Solid Mechanics, 13(1), 81-92.
Refrences
Abd-Alla, A. M., Othman, M. I., & Abo-Dahab, S. M. (2016). Reflection of Plane Waves from Electro-magneto-thermoelastic Half-space with a Dual-Phase-Lag Model. Computers, Materials & Continua, 51(2).
Abouelregal, A. E. (2011). The reflection of magneto-thermoelastic P and SV waves at a solid half space using dual-phase-lag model. Advances in Applied Mathematics and Mechanics, 3(6), 745-758.
Abouelregal, A. E., & Rashid, A. F. (2024). Deformation in a micropolar material under the influence of Hall current and initial stress fields in the context of a double-temperature thermoelastic theory involving phase lag and higher orders. Acta Mechanica, 1-27.
Achenbach J.D. (1973). Wave propagation in elastic solids, Ist edn. North Holland, Amsterdam.
Barak, M. S., Poonia, R., Devi, S., & Dhankhar, P. (2024). Nonlocal and dual‐phase‐lag effects in a transversely isotropic exponentially graded thermoelastic medium with voids. ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 104(5), e202300579.
Chandrasekharaiah, D. S. (1998). Hyperbolic thermoelasticity: a review of recent literature. Appl. Mech. Rev, 51(12), 705-729.
Chiriţă, S. (2017). On the time differential dual-phase-lag thermoelastic model. Meccanica, 52(1), 349-361.
Deswal, S., Kalkal, K. K., Dhankhar, P., & Poonia, R. (2024). Reflection of Plane Waves in a Nonlocal Transversely Isotropic Micropolar Thermoelastic Medium with Temperature-Dependent Properties. Journal of Vibration Engineering & Technologies, 1-18.
Deswal, S., Sheokand, S. K., & Kalkal, K. K. (2019). Reflection at the free surface of fiber-reinforced thermoelastic rotating medium with two-temperature and phase-lag. Applied Mathematical Modelling, 65, 106-119.
El-Karamany, A. S., & Ezzat, M. A. (2014). On the dual-phase-lag thermoelasticity theory. Meccanica, 49, 79-89.
Eraki, E. E., Fathy, R. A., & Othman, M. I. (2024). Thomson effect on an initially stressed diffusive magneto-thermoelastic medium via dual-phase-lag model. Journal of Vibration Engineering & Technologies, 1-12.
Eringen, A. C. (1994). A continuum theory of swelling porous elastic soils. International journal of engineering science, 32(8), 1337-1349.
Kalkal, K. K., Sheokand, S. K., & Deswal, S. (2019). Reflection and transmission between thermoelastic and initially stressed fiber-reinforced thermoelastic half-spaces under dual-phase-lag model. Acta Mechanica, 230, 87-104.
Khan, A. A., & Tanveer, S. (2021). Transmission and reflection of SV waves at micropolar solid–liquid interface with dual-phase lag theory. Indian Journal of Physics, 1-13.
Kumar, D., Paswan, B., Singh, P., & Chattopadhyay, A. (2024). Reflection and transmission of plane wave at the interface between two distinct nonlocal triclinic micropolar generalized thermoelastic half spaces under DPL and LS theory. Acta Mechanica, 235(5), 3245-3270.
Kumar, R., & Gupta, V. (2015). Dual-phase-lag model of wave propagation at the interface between elastic and thermoelastic diffusion media. Journal of Engineering Physics and Thermophysics, 88, 252-265.
Kumar, R., Gupta, V., Pathania, V., Kumar, R., & Barak, M. S. (2023). Analysis of waves at boundary surfaces at distinct media with nonlocal dual-phase-lag. Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 93(4), 573-585.
Kumar, R., Kaushal, S., & Kochar, A. (2022). Response of impedance parameters on waves in the micropolar thermoelastic medium under modified Green‐Lindsay theory. ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 102(9), e202200109.
Kumar, R., Sheoran, D., Thakran, S., & Kalkal, K. K. (2021). Waves in a nonlocal micropolar thermoelastic half-space with voids under dual-phase-lag model. Waves in Random and Complex Media, 1-20.
Kumar, R., Vashishth, A. K., & Ghangas, S. (2019). Nonlocal heat conduction approach in a bi-layer tissue during magnetic fluid hyperthermia with dual phase lag model. Bio-medical materials and engineering, 30(4), 387-402.
Lata, P., Kaur, I., & Singh, K. (2020). Propagation of plane wave in transversely isotropic magneto-thermoelastic material with multi-dual-phase lag and two temperature. Coupled systems mechanics, 9(5), 411-432.
Lord, H. W., & Shulman, Y. (1967). A generalized dynamical theory of thermoelasticity. Journal of the Mechanics and Physics of Solids, 15(5), 299-309.
Ma, J., & Liu, H. (2023). Thermodynamic behavior of rectangular nanoplate under moving laser pulse based on nonlocal dual-phase-lag model. International Journal of Heat and Mass Transfer, 207, 123958.
Majchrzak, E., & Mochnacki, B. (2024). Sensitivity of a Process for Heating Thin Metal Film Described by the Dual-Phase Lag Equation with Temperature-Dependent Thermophysical Parameters to Perturbations of Lag Times. Energies, 17(10), 2252.
Punia, B. S., Deswal, S., Kalkal, K. K., & Othman, M. I. (2024). Reflection of plane waves in an orthotropic micropolar thermoelastic diffusive medium with two-temperature. Indian Journal of Physics, 98(2), 613-628.
Ramadan, K., & Al-Nimr, M. D. A. (2009). Thermal wave reflection and transmission in a multilayer slab with imperfect contact using the dual-phase-lag model. Heat transfer engineering, 30(8), 677-687.
Sharma, K. (2012). Reflection of plane waves in thermodiffusive elastic half‐space with voids. Multidiscipline Modeling in Materials and Structures, 8(3), 269-296.
Sharma, K., & Marin, M. (2013). Effect of distinct conductive and thermodynamic temperatures on the reflection of plane waves in micropolar elastic half-space. University Politehnica of Bucharest Scientific Bulletin-Series A-Applied Mathematics and Physics, 75(2), 121-132.
Sharma, K., & Marin, M. (2014). Reflection and transmission of waves from imperfect boundary between two heat conducting micropolar thermoelastic solids. Analele ştiinţifice ale Universităţii" Ovidius" Constanţa. Seria Matematică, 22(2), 151-176.
Sharma, K., Sharma, S., & Bhargava, R. R. (2013). Propagation of waves in micropolar thermoelastic solid with two temperatures bordered with layers or half spaces of inviscid liquid. Materials Physics and Mechanics, 16(1), 66-81.
Sharma, S., & Khator, S. (2021). Power generation planning with reserve dispatch and weather uncertainties including penetration of renewable sources. International Journal of Smart Grid and Clean Energy, 10(4), 292-303.
Sharma, S., & Khator, S. (2022). Micro-Grid Planning with Aggregator’s Role in the Renewable Inclusive Prosumer Market. Journal of Power and Energy Engineering, 10(4), 47-62.
Singh, B. (2013). Wave propagation in dual-phase-lag anisotropic thermoelasticity. Continuum Mechanics and Thermodynamics, 25(5), 675-683.
Tomar, S. K., & Goyal, S. (2013). Elastic waves in swelling porous media. Transport in porous media, 100, 39-68.
Zenkour, A. M., Mashat, D. S., & Abouelregal, A. E. (2013). The effect of dual-phase-lag model on reflection of thermoelastic waves in a solid half space with variable material properties. Acta Mechanica Solida Sinica, 26(6), 659-670.
Abouelregal, A. E. (2011). The reflection of magneto-thermoelastic P and SV waves at a solid half space using dual-phase-lag model. Advances in Applied Mathematics and Mechanics, 3(6), 745-758.
Abouelregal, A. E., & Rashid, A. F. (2024). Deformation in a micropolar material under the influence of Hall current and initial stress fields in the context of a double-temperature thermoelastic theory involving phase lag and higher orders. Acta Mechanica, 1-27.
Achenbach J.D. (1973). Wave propagation in elastic solids, Ist edn. North Holland, Amsterdam.
Barak, M. S., Poonia, R., Devi, S., & Dhankhar, P. (2024). Nonlocal and dual‐phase‐lag effects in a transversely isotropic exponentially graded thermoelastic medium with voids. ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 104(5), e202300579.
Chandrasekharaiah, D. S. (1998). Hyperbolic thermoelasticity: a review of recent literature. Appl. Mech. Rev, 51(12), 705-729.
Chiriţă, S. (2017). On the time differential dual-phase-lag thermoelastic model. Meccanica, 52(1), 349-361.
Deswal, S., Kalkal, K. K., Dhankhar, P., & Poonia, R. (2024). Reflection of Plane Waves in a Nonlocal Transversely Isotropic Micropolar Thermoelastic Medium with Temperature-Dependent Properties. Journal of Vibration Engineering & Technologies, 1-18.
Deswal, S., Sheokand, S. K., & Kalkal, K. K. (2019). Reflection at the free surface of fiber-reinforced thermoelastic rotating medium with two-temperature and phase-lag. Applied Mathematical Modelling, 65, 106-119.
El-Karamany, A. S., & Ezzat, M. A. (2014). On the dual-phase-lag thermoelasticity theory. Meccanica, 49, 79-89.
Eraki, E. E., Fathy, R. A., & Othman, M. I. (2024). Thomson effect on an initially stressed diffusive magneto-thermoelastic medium via dual-phase-lag model. Journal of Vibration Engineering & Technologies, 1-12.
Eringen, A. C. (1994). A continuum theory of swelling porous elastic soils. International journal of engineering science, 32(8), 1337-1349.
Kalkal, K. K., Sheokand, S. K., & Deswal, S. (2019). Reflection and transmission between thermoelastic and initially stressed fiber-reinforced thermoelastic half-spaces under dual-phase-lag model. Acta Mechanica, 230, 87-104.
Khan, A. A., & Tanveer, S. (2021). Transmission and reflection of SV waves at micropolar solid–liquid interface with dual-phase lag theory. Indian Journal of Physics, 1-13.
Kumar, D., Paswan, B., Singh, P., & Chattopadhyay, A. (2024). Reflection and transmission of plane wave at the interface between two distinct nonlocal triclinic micropolar generalized thermoelastic half spaces under DPL and LS theory. Acta Mechanica, 235(5), 3245-3270.
Kumar, R., & Gupta, V. (2015). Dual-phase-lag model of wave propagation at the interface between elastic and thermoelastic diffusion media. Journal of Engineering Physics and Thermophysics, 88, 252-265.
Kumar, R., Gupta, V., Pathania, V., Kumar, R., & Barak, M. S. (2023). Analysis of waves at boundary surfaces at distinct media with nonlocal dual-phase-lag. Proceedings of the National Academy of Sciences, India Section A: Physical Sciences, 93(4), 573-585.
Kumar, R., Kaushal, S., & Kochar, A. (2022). Response of impedance parameters on waves in the micropolar thermoelastic medium under modified Green‐Lindsay theory. ZAMM‐Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik, 102(9), e202200109.
Kumar, R., Sheoran, D., Thakran, S., & Kalkal, K. K. (2021). Waves in a nonlocal micropolar thermoelastic half-space with voids under dual-phase-lag model. Waves in Random and Complex Media, 1-20.
Kumar, R., Vashishth, A. K., & Ghangas, S. (2019). Nonlocal heat conduction approach in a bi-layer tissue during magnetic fluid hyperthermia with dual phase lag model. Bio-medical materials and engineering, 30(4), 387-402.
Lata, P., Kaur, I., & Singh, K. (2020). Propagation of plane wave in transversely isotropic magneto-thermoelastic material with multi-dual-phase lag and two temperature. Coupled systems mechanics, 9(5), 411-432.
Lord, H. W., & Shulman, Y. (1967). A generalized dynamical theory of thermoelasticity. Journal of the Mechanics and Physics of Solids, 15(5), 299-309.
Ma, J., & Liu, H. (2023). Thermodynamic behavior of rectangular nanoplate under moving laser pulse based on nonlocal dual-phase-lag model. International Journal of Heat and Mass Transfer, 207, 123958.
Majchrzak, E., & Mochnacki, B. (2024). Sensitivity of a Process for Heating Thin Metal Film Described by the Dual-Phase Lag Equation with Temperature-Dependent Thermophysical Parameters to Perturbations of Lag Times. Energies, 17(10), 2252.
Punia, B. S., Deswal, S., Kalkal, K. K., & Othman, M. I. (2024). Reflection of plane waves in an orthotropic micropolar thermoelastic diffusive medium with two-temperature. Indian Journal of Physics, 98(2), 613-628.
Ramadan, K., & Al-Nimr, M. D. A. (2009). Thermal wave reflection and transmission in a multilayer slab with imperfect contact using the dual-phase-lag model. Heat transfer engineering, 30(8), 677-687.
Sharma, K. (2012). Reflection of plane waves in thermodiffusive elastic half‐space with voids. Multidiscipline Modeling in Materials and Structures, 8(3), 269-296.
Sharma, K., & Marin, M. (2013). Effect of distinct conductive and thermodynamic temperatures on the reflection of plane waves in micropolar elastic half-space. University Politehnica of Bucharest Scientific Bulletin-Series A-Applied Mathematics and Physics, 75(2), 121-132.
Sharma, K., & Marin, M. (2014). Reflection and transmission of waves from imperfect boundary between two heat conducting micropolar thermoelastic solids. Analele ştiinţifice ale Universităţii" Ovidius" Constanţa. Seria Matematică, 22(2), 151-176.
Sharma, K., Sharma, S., & Bhargava, R. R. (2013). Propagation of waves in micropolar thermoelastic solid with two temperatures bordered with layers or half spaces of inviscid liquid. Materials Physics and Mechanics, 16(1), 66-81.
Sharma, S., & Khator, S. (2021). Power generation planning with reserve dispatch and weather uncertainties including penetration of renewable sources. International Journal of Smart Grid and Clean Energy, 10(4), 292-303.
Sharma, S., & Khator, S. (2022). Micro-Grid Planning with Aggregator’s Role in the Renewable Inclusive Prosumer Market. Journal of Power and Energy Engineering, 10(4), 47-62.
Singh, B. (2013). Wave propagation in dual-phase-lag anisotropic thermoelasticity. Continuum Mechanics and Thermodynamics, 25(5), 675-683.
Tomar, S. K., & Goyal, S. (2013). Elastic waves in swelling porous media. Transport in porous media, 100, 39-68.
Zenkour, A. M., Mashat, D. S., & Abouelregal, A. E. (2013). The effect of dual-phase-lag model on reflection of thermoelastic waves in a solid half space with variable material properties. Acta Mechanica Solida Sinica, 26(6), 659-670.