A novel theory of generalized thermoelasticity based on thermomass motion and two-temperature heat conduction

“…Various mechanical behavior can be addressed under different external loadings, which can affect noticeably stiffness, stress, strain, and deformation of the micro/nano-structures. Therefore, the importance of investigating the effects of Fourier/non-Fourier heat conduction, coupled thermoelasticity analysis including the classical coupled and Lord-Shulman coupled models, uncoupled magneto-thermoelasticity analysis, as well as electro-thermoelasticity behavior is essential on the mechanical behavior of micro/nano sized-structures [210][211][212][213][214][215][216][217][218][219][220][221][222][223][224][225][226][227][228][229].…”

A review of size-dependent continuum mechanics models for micro- and nano-structures

“…Various mechanical behavior can be addressed under different external loadings, which can affect noticeably stiffness, stress, strain, and deformation of the micro/nano-structures. Therefore, the importance of investigating the effects of Fourier/non-Fourier heat conduction, coupled thermoelasticity analysis including the classical coupled and Lord-Shulman coupled models, uncoupled magneto-thermoelasticity analysis, as well as electro-thermoelasticity behavior is essential on the mechanical behavior of micro/nano sized-structures [210][211][212][213][214][215][216][217][218][219][220][221][222][223][224][225][226][227][228][229].…”

A review of size-dependent continuum mechanics models for micro- and nano-structures

Thermal waves based on the thermomass model due to mechanical damage with memory

General generalized thermoelasticity theory (GGTT)