The microscopic structure of a plant cell wall is given by cellulose microfibrils embedded in a cell wall matrix. In this paper we consider a microscopic model for interactions between viscoelastic deformations of a plant cell wall and chemical processes in the cell wall matrix. We consider elastic deformations of the cell wall microfibrils and viscoelastic Kelvin–Voigt type deformations of the cell wall matrix. Using homogenization techniques (two-scale convergence and periodic unfolding methods) we derive macroscopic equations from the microscopic model for cell wall biomechanics consisting of strongly coupled equations of linear viscoelasticity and a system of reaction-diffusion and ordinary differential equations. As is typical for micr...
Most plant cells are surrounded by a rigid cell wall composed of many cellulose microfibrils embedde...
We present a micro-macro method for the simulation of large elastic deformations of plant tissue. At...
International audienceA crucial question in developmental biology is how cell growth is coordinated ...
The microscopic structure of a plant cell wall is given by cellulose microfibrils embedded in a cell...
In this paper we present a derivation and multiscale analysis of a mathematical model for plant cell...
In this paper homogenization of a mathematical model for plant tissue biomechanics is presented. The...
In this paper we present a derivation and multiscale analysis of a mathematical model for plant cell...
In this paper homogenization of a mathematical model for biomechanics of a plant tissue with randoml...
In this paper homogenization of a mathematical model for plant tissue biomechanics is presented. The...
We present a multiscale method for the simulation of large viscoelastic deformations and show its ap...
A finite strain fibre-reinforced viscoelasto-viscoplastic model implemented in a finite element (FE)...
Plant development is a complex multiscale process out of thermodynamic equilibrium. While sophistica...
Most plant cells are surrounded by a rigid cell wall composed of many cellulose microfibrils embedde...
We present a micro-macro method for the simulation of large elastic deformations of plant tissue. At...
International audienceA crucial question in developmental biology is how cell growth is coordinated ...
The microscopic structure of a plant cell wall is given by cellulose microfibrils embedded in a cell...
In this paper we present a derivation and multiscale analysis of a mathematical model for plant cell...
In this paper homogenization of a mathematical model for plant tissue biomechanics is presented. The...
In this paper we present a derivation and multiscale analysis of a mathematical model for plant cell...
In this paper homogenization of a mathematical model for biomechanics of a plant tissue with randoml...
In this paper homogenization of a mathematical model for plant tissue biomechanics is presented. The...
We present a multiscale method for the simulation of large viscoelastic deformations and show its ap...
A finite strain fibre-reinforced viscoelasto-viscoplastic model implemented in a finite element (FE)...
Plant development is a complex multiscale process out of thermodynamic equilibrium. While sophistica...
Most plant cells are surrounded by a rigid cell wall composed of many cellulose microfibrils embedde...
We present a micro-macro method for the simulation of large elastic deformations of plant tissue. At...
International audienceA crucial question in developmental biology is how cell growth is coordinated ...