Compared to synthetic materials, naturally grown biological materials have more specific behavioral patterns and life connotations in their morphological evolution over millions of years of environmental evolution on Earth. In this paper, we investigate the physical mechanisms and manifestations of out-of-plane deformation instability. Firstly, the origin of the instability phenomenon caused by the growth of the leaf is introduced. Leaf instability problems are modeled using rectangular thin plates. Secondly, the variation in the critical intrinsic strain with the principal shear modulus is obtained by numerical solution. The post-buckling behavior of the growth instability is further analyzed by general static analysis, and we obtain the p...
Differential in-plane growth of thin elastic sheets induces out-of-plane buckling. More growth near ...
The growth of trees is characterized by the elongation and thickening of its axes. New cells are for...
Abstract A general constitutive theory of the stress-modulated growth of biomaterials is presented w...
The effect of growth in the stability of elastic materials is studied. From a stability perspective,...
Geometric instabilities in living structures can be critical for healthy biological function, and ab...
Plant leaves, insect wings, and other natural surfaces show interesting cases of out-of-plan deforma...
International audiencePlants are under tremendous mechanical forces generated by turgor pressure. Ho...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
In this work, we have explored growth-induced mechanical instability in an isotropic circular hypere...
ABSTRACT Surface patterns can emerge during growth of anisotropic tissues because of surface bucklin...
Inspired by the observation of the configurations of Victoria regia leaves, we establish a phenomeno...
Many living structured are coated by thin films, which have distinct mechanical properties from the ...
Mechanical factors play an important role in plant tissues growth and development. Plant growth is ...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
Differential in-plane growth of thin elastic sheets induces out-of-plane buckling. More growth near ...
The growth of trees is characterized by the elongation and thickening of its axes. New cells are for...
Abstract A general constitutive theory of the stress-modulated growth of biomaterials is presented w...
The effect of growth in the stability of elastic materials is studied. From a stability perspective,...
Geometric instabilities in living structures can be critical for healthy biological function, and ab...
Plant leaves, insect wings, and other natural surfaces show interesting cases of out-of-plan deforma...
International audiencePlants are under tremendous mechanical forces generated by turgor pressure. Ho...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
We present a discrete mechanical model to study plant development. The method is built up of mass po...
In this work, we have explored growth-induced mechanical instability in an isotropic circular hypere...
ABSTRACT Surface patterns can emerge during growth of anisotropic tissues because of surface bucklin...
Inspired by the observation of the configurations of Victoria regia leaves, we establish a phenomeno...
Many living structured are coated by thin films, which have distinct mechanical properties from the ...
Mechanical factors play an important role in plant tissues growth and development. Plant growth is ...
The morphogenesis of organs necessarily involves mechanical interactions and changes in mechanical p...
Differential in-plane growth of thin elastic sheets induces out-of-plane buckling. More growth near ...
The growth of trees is characterized by the elongation and thickening of its axes. New cells are for...
Abstract A general constitutive theory of the stress-modulated growth of biomaterials is presented w...