We consider the axial buckling of a thin-walled cylinder fitted onto a mandrel core with a prescribed annular gap. The buckling pattern develops fully and uniformly to yield a surface texture of regular diamond-shaped buckles, which we propose for novel morphing structures. We describe experiments that operate well into the postbuckling regime, where a classical analysis does not apply; we show that the size of buckles depends on the cylinder radius and the gap width, but not on its thickness, and we formulate simple relationships from kinematics alone for estimating the buckle proportions during loading. © 2014 by ASME
A combined theoretical and experimental investigation has been carried out on the effects of certain...
Empirical design curves are presented for the critical stress of thin-walled cylinders loaded in axi...
The aim of this paper was to examine the buckling behavior of axially compressed mild steel circular...
Thin cylindrical shells in axial compression are known to be highly sensitive to geometric imperfec...
Recent experimental and numerical results have illustrated the importance of spatially localised buc...
The objective of research in the field of axially compressed cylinders is the establishment of sound...
Decades of research has led to a comprehensive understanding of the buckling behaviour of thin-walle...
Cylinder buckling is notoriously sensitive to small geometric imperfections. This is an underlying m...
We investigate the problem of an axially loaded, isotropic, slender cylinder embedded in a soft, iso...
Recent advances in active soft structures envision the large deformations resulting from mechanical ...
The widely accepted theory of buckling of thin cylindrical shells under axial compressive loading em...
For a non-circular cylinder the radius of curvature changes around the circumference. Therefore for ...
Due to surface tension, a beading instability takes place in a long enough fluid column that results...
Eight different series of thin-walled Mylar cylinders were tested experimentally to investigate the ...
Morphogenesis is the generation process of specific morphologies of living organisms depending on co...
A combined theoretical and experimental investigation has been carried out on the effects of certain...
Empirical design curves are presented for the critical stress of thin-walled cylinders loaded in axi...
The aim of this paper was to examine the buckling behavior of axially compressed mild steel circular...
Thin cylindrical shells in axial compression are known to be highly sensitive to geometric imperfec...
Recent experimental and numerical results have illustrated the importance of spatially localised buc...
The objective of research in the field of axially compressed cylinders is the establishment of sound...
Decades of research has led to a comprehensive understanding of the buckling behaviour of thin-walle...
Cylinder buckling is notoriously sensitive to small geometric imperfections. This is an underlying m...
We investigate the problem of an axially loaded, isotropic, slender cylinder embedded in a soft, iso...
Recent advances in active soft structures envision the large deformations resulting from mechanical ...
The widely accepted theory of buckling of thin cylindrical shells under axial compressive loading em...
For a non-circular cylinder the radius of curvature changes around the circumference. Therefore for ...
Due to surface tension, a beading instability takes place in a long enough fluid column that results...
Eight different series of thin-walled Mylar cylinders were tested experimentally to investigate the ...
Morphogenesis is the generation process of specific morphologies of living organisms depending on co...
A combined theoretical and experimental investigation has been carried out on the effects of certain...
Empirical design curves are presented for the critical stress of thin-walled cylinders loaded in axi...
The aim of this paper was to examine the buckling behavior of axially compressed mild steel circular...