This paper addresses the use of the Lattice Monte Carlo method for the thermal characterization of composite materials. An optimized approach that minimizes computational time is presented. The key aspect of the approach is the avoidance of the need to model the local thermal inertia. A combined finite element and Lattice Monte Carlo analysis is conducted on a model composite for a formal verification of the effective thermal diffusivity and conductivity calculated by the optimized Lattice Monte Carlo method. The effective thermal inertia is calculated separately by making use of the energy conservation law
Evaluation of thermal conductivity of composite materials is extremely important to control materia...
Heat sinks enable the storage of energy that would otherwise be lost, thus ensuring significant ener...
In this paper, a Lattice Monte Carlo method is used to determine the effective thermal conductivity ...
In this paper, the Finite Element and lattice Monte Carlo methods are used to calculate the effectiv...
Ever since its development during World War II as part of the Manhattan Project, the Monte Carlo met...
In this review paper, we introduce the recently developed Lattice Monte Carlo method for addressing...
In this paper, we review the recent developed method based around lattice-based random walks and the...
A correct strategy for evaluation of the effective thermal diffusivity, and, similarly, for the eval...
This Chapter addresses the numerical simulation of thermal diffusion in multi-phase materials. A Lat...
In this overview, we introduce the recently developed Lattice Monte Carlo method for addressing and ...
The Lattice Monte Carlo (LMC) method recently developed by the authors is an unusually powerful and ...
Here, we present a review of recent developments for an off-lattice Monte Carlo approach used to inv...
The Lattice Monte Carlo method is a computationally intensive approach towards the study of thermal ...
The effective thermal conductivity of composite materials with thermal contact resistance at interfa...
© 2018 Dr Michael WangThe Lattice Monte Carlo (LMC) method has been successfully applied to a range ...
Evaluation of thermal conductivity of composite materials is extremely important to control materia...
Heat sinks enable the storage of energy that would otherwise be lost, thus ensuring significant ener...
In this paper, a Lattice Monte Carlo method is used to determine the effective thermal conductivity ...
In this paper, the Finite Element and lattice Monte Carlo methods are used to calculate the effectiv...
Ever since its development during World War II as part of the Manhattan Project, the Monte Carlo met...
In this review paper, we introduce the recently developed Lattice Monte Carlo method for addressing...
In this paper, we review the recent developed method based around lattice-based random walks and the...
A correct strategy for evaluation of the effective thermal diffusivity, and, similarly, for the eval...
This Chapter addresses the numerical simulation of thermal diffusion in multi-phase materials. A Lat...
In this overview, we introduce the recently developed Lattice Monte Carlo method for addressing and ...
The Lattice Monte Carlo (LMC) method recently developed by the authors is an unusually powerful and ...
Here, we present a review of recent developments for an off-lattice Monte Carlo approach used to inv...
The Lattice Monte Carlo method is a computationally intensive approach towards the study of thermal ...
The effective thermal conductivity of composite materials with thermal contact resistance at interfa...
© 2018 Dr Michael WangThe Lattice Monte Carlo (LMC) method has been successfully applied to a range ...
Evaluation of thermal conductivity of composite materials is extremely important to control materia...
Heat sinks enable the storage of energy that would otherwise be lost, thus ensuring significant ener...
In this paper, a Lattice Monte Carlo method is used to determine the effective thermal conductivity ...