A vertex centred Jameson–Schmidt–Turkel (JST) finite volume algorithm was recently introduced by the authors (Aguirre et al., 2014 [1]) in the context of fast solid isothermal dynamics. The spatial discretisation scheme was constructed upon a Lagrangian two-field mixed (linear momentum and the deformation gradient) formulation presented as a system of conservation laws [2], [3] and [4]. In this paper, the formulation is further enhanced by introducing a novel upwind vertex centred finite volume algorithm with three key novelties. First, a conservation law for the volume map is incorporated into the existing two-field system to extend the range of applications towards the incompressibility limit (Gil et al., 2014 [5]). Second, the use of a l...
This article presents a vertex-centered finite volume algorithm for the explicit dynamic analysis of...
This paper introduces a new computational framework for the analysis of large strain fast solid dyna...
In Part I of this series, Bonet et al. [1] introduced a new computational framework for the analysis...
A vertex centred Jameson–Schmidt–Turkel (JST) finite volume algorithm was recently introduced by the...
This paper presents an explicit vertex centred finite volume method for the solution of fast transie...
The paper presents a new computational framework for the numerical simulation of fast large strain s...
A vertex centred Finite Volume algorithm is presented for the numerical simulation of fast transient...
With the increase of the computational power over the last decades, computational solid dynamics has...
This paper builds on recent work developed by the authors for the numerical analysis of large strain...
Over the past few decades, dynamic solid mechanics has become a major field of interest in industria...
This paper builds on recent work developed by the authors for the numerical analysis of large strain...
In previous work (Lee et al., 2016, 2017), Lee et al. introduced a new Smooth Particle Hydrodynamics...
A novel computational methodology is presented for the numerical analysis of fast transient dynamics...
It is evidently not trivial to analytically solve practical engineering problems due to their inhere...
This paper presents a novel Smooth Particle Hydrodynamics computational framework for the simulation...
This article presents a vertex-centered finite volume algorithm for the explicit dynamic analysis of...
This paper introduces a new computational framework for the analysis of large strain fast solid dyna...
In Part I of this series, Bonet et al. [1] introduced a new computational framework for the analysis...
A vertex centred Jameson–Schmidt–Turkel (JST) finite volume algorithm was recently introduced by the...
This paper presents an explicit vertex centred finite volume method for the solution of fast transie...
The paper presents a new computational framework for the numerical simulation of fast large strain s...
A vertex centred Finite Volume algorithm is presented for the numerical simulation of fast transient...
With the increase of the computational power over the last decades, computational solid dynamics has...
This paper builds on recent work developed by the authors for the numerical analysis of large strain...
Over the past few decades, dynamic solid mechanics has become a major field of interest in industria...
This paper builds on recent work developed by the authors for the numerical analysis of large strain...
In previous work (Lee et al., 2016, 2017), Lee et al. introduced a new Smooth Particle Hydrodynamics...
A novel computational methodology is presented for the numerical analysis of fast transient dynamics...
It is evidently not trivial to analytically solve practical engineering problems due to their inhere...
This paper presents a novel Smooth Particle Hydrodynamics computational framework for the simulation...
This article presents a vertex-centered finite volume algorithm for the explicit dynamic analysis of...
This paper introduces a new computational framework for the analysis of large strain fast solid dyna...
In Part I of this series, Bonet et al. [1] introduced a new computational framework for the analysis...