Theoretical Analysis of Axial Crushing of Cylindrical Tubes with Corrugated Surfaces
Dai-Heng Chen,Shingo Ozaki +1 more
TLDR
In this paper, a new theoretical model of axial crushing of cylindrical tubes with corrugated surfaces has been developed in which the crushing force is analyzed by considering the equilibrium of work done by the crushing forces and the energy required to deform the tube.Abstract:
A new theoretical model of axial crushing of cylindrical tubes with corrugated surfaces has been developed in which the crushing force is analyzed by considering the equilibrium of work done by the crushing force and the energy required to deform the tube. The energy absorbed by the cylindrical tube being crushed is taken to be the sum of the bending energy term and the membrane energy term, which results from compression or extension of a tube wall in the radial direction. The analysis results of the model predict two different modes, termed P- and S-modes, may occur in the collapse of cylindrical tubes with corrugated surfaces. In the P-mode, the compressive force oscillates with folding one after another, whereas in the S-mode the compressive force increases monotonically. Both the mode classification charts and the average crushing force predicted by the developed model are found to be in good agreement with FEM numerical calculation results. In addition, it is found that the increase in the compressive force load for the S-mode is principally due to an increase in the bending energy with deformation.read more
Citations
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Curvature sensitive analysis of axially compressed cylindrical tubes with corrugated surface using isogeometric analysis and experiment
Takuma Imai,Tadahiro Shibutani,Kazumi Matsui,Seitoku Kumagai,Dang Tien Tran,Kaiyuan Mu,Takashi Maekawa +6 more
TL;DR: The effects of curvature on the energy absorption characteristics of cylindrical corrugated tubes under compression are studied by isogeometric analysis and experiments and show that the tube with the largest curvature pattern absorbs around 21% more energy than that with the smallest curvature patterns.
References
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TL;DR: In this paper, a series of over 120 axial crushing tests were conducted on circular and square steel tubes loaded either statically or dynamically, and approximate theoretical predictions for static and dynamic progressive buckling were developed.
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A.A. Singace,H. El-Sobky +1 more
TL;DR: In this paper, the energy absorption characteristics of corrugated tubes are experimentally studied, where corrugations are introduced in the tube to force the plastic deformation to occur at predetermined intervals along the tube generator.
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