Add to ORKGIn this short communication we consider the extensibility properties of the cell wall. This is accomplished by a heuristically motivated equation for the expanding volume of the cell. The experimentally determined characteristic time t0 and temperature T0 are the only numbers required for evaluating the effective yielding coefficient F(t, T) in the respective time and temperature domains
AbstractA fibre-reinforced hyperelastic–viscoplastic model using a finite strain Finite Element (FE)...
According to the model frequently used as reference, plant cell growth occurs only when turgor surpa...
AbstractThe plant primary cell wall is a composite material containing stiff cellulose microfibrils ...
Abstract. In this article we deal with the definition of a new phenomenological model with physical ...
The time-irreversible cell enlargement of plant cells at a constant temperature results from two ind...
An effective formula describing expansive plant growth is derived from the modified Lockhart/Ortega-...
The plant cell wall is a critically vital component of each plant that directly affects its ability ...
Plants are sessile organisms and they must adapt their growth to a changing environment. Understandi...
The cell wall of growing plant tissues has frequently been interpreted in terms of inextensible cell...
Cells of algae, fungi, and plants have walls and exhibit expansive growth which can increase their v...
(A) For each cell type, the global stress σe was computed using measured values of turgor, curvature...
Plant cell growth is regulated through manipulation of the cell wall network, which consists of orie...
From Lockhart to the augmented growth equation Biophysical equations describing cell wall mechanics ...
Most plant cells are surrounded by a rigid cell wall composed of many cellulose microfibrils embedde...
Root elongation and bending require the coordinated expansion of multiple cells of different types. ...
AbstractA fibre-reinforced hyperelastic–viscoplastic model using a finite strain Finite Element (FE)...
According to the model frequently used as reference, plant cell growth occurs only when turgor surpa...
AbstractThe plant primary cell wall is a composite material containing stiff cellulose microfibrils ...
Abstract. In this article we deal with the definition of a new phenomenological model with physical ...
The time-irreversible cell enlargement of plant cells at a constant temperature results from two ind...
An effective formula describing expansive plant growth is derived from the modified Lockhart/Ortega-...
The plant cell wall is a critically vital component of each plant that directly affects its ability ...
Plants are sessile organisms and they must adapt their growth to a changing environment. Understandi...
The cell wall of growing plant tissues has frequently been interpreted in terms of inextensible cell...
Cells of algae, fungi, and plants have walls and exhibit expansive growth which can increase their v...
(A) For each cell type, the global stress σe was computed using measured values of turgor, curvature...
Plant cell growth is regulated through manipulation of the cell wall network, which consists of orie...
From Lockhart to the augmented growth equation Biophysical equations describing cell wall mechanics ...
Most plant cells are surrounded by a rigid cell wall composed of many cellulose microfibrils embedde...
Root elongation and bending require the coordinated expansion of multiple cells of different types. ...
AbstractA fibre-reinforced hyperelastic–viscoplastic model using a finite strain Finite Element (FE)...
According to the model frequently used as reference, plant cell growth occurs only when turgor surpa...
AbstractThe plant primary cell wall is a composite material containing stiff cellulose microfibrils ...