Journal of Theoretical
and Applied Mechanics

55, 1, pp. 177-188, Warsaw 2017
DOI: 10.15632/jtam-pl.55.1.177

Large deformation analysis and stability analysis of a cylindrical rubber tube under internal pressure

Jianbing Sang, Sufang Xing, Haitao Liu, Xiaolei Li, Jingyuan Wang, Yinlai Lv
Rubber tubes under pressure can undergo large deformations and exhibit a particular nonlinear
elastic behavior. In order to reveal mechanical properties of rubber tubes subjected
to internal pressure, large deformation analysis and stability analysis have been proposed
in this paper by utilizing a modified Gent’s strain energy function. Based on the nonlinear
elastic theory, by establishing the theoretical model of a rubber tube under internal pressure,
the relationship between the internal pressure and circumferential principal stretch has been
deduced. Meanwhile stability analysis of the rubber tube has also been proposed and the
relationship between the internal pressure and the internal volume ratio has been achieved.
The effects on the deformation by different parameters and the failure reasons of the rubber
tube have been discussed, which provided a reasonable reference for the design of rubber
tubes.
Keywords: large deformation analysis, stability analysis, rubber tube, nonlinear elastic theory