We consider the problem of modelling nanobeams that dissipate thermal energy by radiation. We approach such a problem in a one-dimensional case by discussing the behavior of nonlocal nanobeams based on the Euler–Bernoulli assumptions. With these premises, we propose a thermoelastic model that takes into account the effects of thermal energy radiation to the external environment, employing an extension of the type II Green–Naghdi (GN-II) theory. We also deepen the formulated theoretical model making use of wave-form solutions, to highlight the presence of dissipative effects
In the present work, the model of vibration of gold nano- beam induced by laser pulse heating is dev...
International audienceThis paper is concerned with the investigation of thermal loads and small scal...
This article constructs a new model of nonlocal thermoelasticity beam theory with phase-lags conside...
In this article, an Euler-Bernoulli beam model based upon nonlocal thermoelasticity theory without e...
In this work, a novel nonlocal model without energy dissipations is presented to investigate the imp...
In this study, the second type of Green and Naghdi's thermoelasticity theory is applied to present t...
We analyze the role played by nonlocal and nonlinear effects in the propagation of thermal and elast...
This paper is concerned with the bending problem of nanobeams starting from a nonlocal thermodynamic...
The Bernoulli-Euler beam formulation is extended by means of the nonlocal strain gradient theory in ...
The purpose of this contribution is to extend the concept of thermoelasticity without energy dissipa...
An enhanced Euler-Bernoulli nanobeam model is presented. The coupled nonlocal model depends on two ...
The operation of micro-=nanobeams vibrating at very high frequencies, such as encountered in micro-=...
Although small-scale effect or thermal stress significantly impact the mechanical properties of nano...
A novel nonlocal model with one thermal relaxation time is presented to investigate the propagation ...
In the present work, the model of vibration of gold nano- beam induced by laser pulse heating is dev...
International audienceThis paper is concerned with the investigation of thermal loads and small scal...
This article constructs a new model of nonlocal thermoelasticity beam theory with phase-lags conside...
In this article, an Euler-Bernoulli beam model based upon nonlocal thermoelasticity theory without e...
In this work, a novel nonlocal model without energy dissipations is presented to investigate the imp...
In this study, the second type of Green and Naghdi's thermoelasticity theory is applied to present t...
We analyze the role played by nonlocal and nonlinear effects in the propagation of thermal and elast...
This paper is concerned with the bending problem of nanobeams starting from a nonlocal thermodynamic...
The Bernoulli-Euler beam formulation is extended by means of the nonlocal strain gradient theory in ...
The purpose of this contribution is to extend the concept of thermoelasticity without energy dissipa...
An enhanced Euler-Bernoulli nanobeam model is presented. The coupled nonlocal model depends on two ...
The operation of micro-=nanobeams vibrating at very high frequencies, such as encountered in micro-=...
Although small-scale effect or thermal stress significantly impact the mechanical properties of nano...
A novel nonlocal model with one thermal relaxation time is presented to investigate the propagation ...
In the present work, the model of vibration of gold nano- beam induced by laser pulse heating is dev...
International audienceThis paper is concerned with the investigation of thermal loads and small scal...
This article constructs a new model of nonlocal thermoelasticity beam theory with phase-lags conside...