Bruise damage in fruit results from cell wall failure and inter-cellular separation. Despite the importance of the micro-mechanics of plant tissue with respect to its integrity, it remains largely unquantified and poorly understood, due to many difficulties during experimental characterization. In this article, a 3D micro-mechanical plant tissue model that is able to model cell rupture and inter-cellular debonding and thus provide more insight into the micro-mechanics was developed. The model is based on the discrete element method (DEM) and represents the tissue as a mass-spring system. Each plant cell is represented as a deformable visco-elastoplastic triangulated mesh under turgor pressure. To model cell wall rupture, it is assumed that ...
A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collectio...
Morphogenesis in plants is directly linked to the mechanical elements of growing tissues, namely cel...
This paper is concerned with addressing how biological cells react to mechanical impulse. We propose...
Mechanical bruise damage in fruit is the consequence of the progression of cell ruptures and inter-c...
We present a micro-macro method for the simulation of large elastic deformations of plant tissue. At...
Computational modelling of plant cellular materials and relevant mechanics are of interest in numero...
Computational modelling of plant cellular materials and relevant mechanics are of interest in numero...
Plant petioles and stems are hierarchical cellular structures, displaying structuralfeatures defined...
Fruit tissues are very heterogeneous at the microscale and the cellular architecture determines to a...
Plant cell walls are a key determinant of the material properties of vegetable tissue following ther...
This paper is concerned with addressing how plant tissue mechanics is related to the micromechanics ...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Plant cell walls are complex and dynamic structures mainly composed of a network of extended polysac...
Dried plant food materials are one of the major contributors to the global food industry. Widening t...
Abstract: A cell-growth-based algorithm is presented based on the biomechanics of plant cells in ti...
A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collectio...
Morphogenesis in plants is directly linked to the mechanical elements of growing tissues, namely cel...
This paper is concerned with addressing how biological cells react to mechanical impulse. We propose...
Mechanical bruise damage in fruit is the consequence of the progression of cell ruptures and inter-c...
We present a micro-macro method for the simulation of large elastic deformations of plant tissue. At...
Computational modelling of plant cellular materials and relevant mechanics are of interest in numero...
Computational modelling of plant cellular materials and relevant mechanics are of interest in numero...
Plant petioles and stems are hierarchical cellular structures, displaying structuralfeatures defined...
Fruit tissues are very heterogeneous at the microscale and the cellular architecture determines to a...
Plant cell walls are a key determinant of the material properties of vegetable tissue following ther...
This paper is concerned with addressing how plant tissue mechanics is related to the micromechanics ...
The development of an organ or organism is a complex process that includes many interact- ing compon...
Plant cell walls are complex and dynamic structures mainly composed of a network of extended polysac...
Dried plant food materials are one of the major contributors to the global food industry. Widening t...
Abstract: A cell-growth-based algorithm is presented based on the biomechanics of plant cells in ti...
A computational study of discrete 'cell-centre' approaches to modelling the evolution of a collectio...
Morphogenesis in plants is directly linked to the mechanical elements of growing tissues, namely cel...
This paper is concerned with addressing how biological cells react to mechanical impulse. We propose...