Add to ORKGIn order to consider virtual materials, i.e. materials that are not manufactured yet, it can be advantageous to model physical phenomena on a lower length scale than the macroscopic one. In such a case, homogenization (or coarse-graining) can be a useful tool. When atomistic systems are analyzed, homogenization can be used to derive continuum properties whereby the need for empirical continuum models is avoided. The macroscopic stress-strain response is then obtained from a Representative Volume Element (RVE), also called Representative Unit Lattice (RUL) in the case of a discrete lattice. Since lattice defects may play an important role, the RUL should be very large in general.In this thesis, we study the coupling between the atomistic and...
In the present contribution we address the modeling of graphene membranes using a hierarchical model...
We present a coupled atomistic-continuum method for the modeling of defects and interface dynamics i...
Continuum‐atomistic modeling denotes a mixed approach combining the usual framework of continuum mec...
In order to consider virtual materials, i.e. materials that are not manufactured yet, it can be adva...
It has long been understood that some of the key characteristics of materials, like grain boundaries...
We present a strategy for adaptive error control for the quasi-continuum (QC) method applied to mole...
The paper deals with the modeling of thin, monolayer graphene membranes, which have significant elec...
We deduce a non-linear continuum model of graphene for the case of finite out-of-plane displacements...
In many applications, materials are modeled by a large number of particles (or atoms), where any par...
We deduce a non-linear continuum model of graphene for the case of finite out-of-plane displacements...
A method is introduced for reducing the degrees of freedom in simulations of mechanical behavior of ...
We focus primarily on the conceptually new class of materials that are only one atom thick, called b...
Abstract. We give a goal-oriented a posteriori error estimator for the atomistic-continuum modeling ...
The quasicontinuum (QC) method is a coarse-graining technique for reducing the complexity of atomist...
In this work, molecular statics is used to model a nanoindentation test on a two-dimensional hexagon...
In the present contribution we address the modeling of graphene membranes using a hierarchical model...
We present a coupled atomistic-continuum method for the modeling of defects and interface dynamics i...
Continuum‐atomistic modeling denotes a mixed approach combining the usual framework of continuum mec...
In order to consider virtual materials, i.e. materials that are not manufactured yet, it can be adva...
It has long been understood that some of the key characteristics of materials, like grain boundaries...
We present a strategy for adaptive error control for the quasi-continuum (QC) method applied to mole...
The paper deals with the modeling of thin, monolayer graphene membranes, which have significant elec...
We deduce a non-linear continuum model of graphene for the case of finite out-of-plane displacements...
In many applications, materials are modeled by a large number of particles (or atoms), where any par...
We deduce a non-linear continuum model of graphene for the case of finite out-of-plane displacements...
A method is introduced for reducing the degrees of freedom in simulations of mechanical behavior of ...
We focus primarily on the conceptually new class of materials that are only one atom thick, called b...
Abstract. We give a goal-oriented a posteriori error estimator for the atomistic-continuum modeling ...
The quasicontinuum (QC) method is a coarse-graining technique for reducing the complexity of atomist...
In this work, molecular statics is used to model a nanoindentation test on a two-dimensional hexagon...
In the present contribution we address the modeling of graphene membranes using a hierarchical model...
We present a coupled atomistic-continuum method for the modeling of defects and interface dynamics i...
Continuum‐atomistic modeling denotes a mixed approach combining the usual framework of continuum mec...