We study nonlinear heat conduction equations with memory effects within the framework of the fractional calculus approach to the generalized Maxwell-Cattaneo law. Our main aim is to derive the governing equations of heat propagation, considering both the empirical temperature-dependence of the thermal conductivity coefficient (which introduces nonlinearity) and memory effects, according to the general theory of Gurtin and Pipkin of finite velocity thermal propagation with memory. In this framework, we consider in detail two different approaches to the generalized Maxwell-Cattaneo law, based on the application of long-tail Mittag-Leffler memory function and power law relaxation functions, leading to nonlinear time-fractional telegra...
The model of a rigid heat conductor with memory is considered. Specifically, in the one-dimensional ...
A modified Fourier\u27s law in an anisotropic and non-homogeneous media results in a heat equation w...
We compare the model of heat transfer proposed by Cattaneo, Maxwell, and Vernotte with another one, ...
In this paper, we reconsider the Hardy–Hardy–Maurer model for the heat propagation in nonlinear rigi...
In this paper, we study a mathematical model of nonlinear thermoelastic wave propagation in fluid-sa...
The modeling of heat conduction is considered by letting the time derivative, in the Cattaneo-Maxwel...
The second law of thermodynamics is a useful and universal tool to derive the generalizations of the...
The classical heat conduction equation is generalized using a generalized heat conduction law. In pa...
Fractional telegrapher’s equation is reinterpreted in the setting of heat conduction phenomena and r...
In the Fourier heat conduction equation, when the flux definition is expressed as the product of a c...
The generalized Cattaneo equation is a new heat conduction equation which is based on the generaliza...
In the Fourier heat conduction equation, when the flux definition is expressed as the product of a c...
This paper extends the method, in which a Volterra-type integral equation that relates the local val...
This paper extends the method, in which a Volterra-type integral equation that relates the local val...
A modified Fourier\u27s law in an anisotropic and non-homogeneous media results in a heat equation w...
The model of a rigid heat conductor with memory is considered. Specifically, in the one-dimensional ...
A modified Fourier\u27s law in an anisotropic and non-homogeneous media results in a heat equation w...
We compare the model of heat transfer proposed by Cattaneo, Maxwell, and Vernotte with another one, ...
In this paper, we reconsider the Hardy–Hardy–Maurer model for the heat propagation in nonlinear rigi...
In this paper, we study a mathematical model of nonlinear thermoelastic wave propagation in fluid-sa...
The modeling of heat conduction is considered by letting the time derivative, in the Cattaneo-Maxwel...
The second law of thermodynamics is a useful and universal tool to derive the generalizations of the...
The classical heat conduction equation is generalized using a generalized heat conduction law. In pa...
Fractional telegrapher’s equation is reinterpreted in the setting of heat conduction phenomena and r...
In the Fourier heat conduction equation, when the flux definition is expressed as the product of a c...
The generalized Cattaneo equation is a new heat conduction equation which is based on the generaliza...
In the Fourier heat conduction equation, when the flux definition is expressed as the product of a c...
This paper extends the method, in which a Volterra-type integral equation that relates the local val...
This paper extends the method, in which a Volterra-type integral equation that relates the local val...
A modified Fourier\u27s law in an anisotropic and non-homogeneous media results in a heat equation w...
The model of a rigid heat conductor with memory is considered. Specifically, in the one-dimensional ...
A modified Fourier\u27s law in an anisotropic and non-homogeneous media results in a heat equation w...
We compare the model of heat transfer proposed by Cattaneo, Maxwell, and Vernotte with another one, ...