Extrusion, slide, and rupture of an elastomeric seal
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- 作者:Zhengjin Wanga ; b ; 1 ; Chao Chena ; 1 ; Qihan Liua ; Yucun Louc ; Zhigang Suoa ; suo@seas.harvard.edu
- 关键词:Seal ; Large deformation ; Friction ; Fracture ; Leak
- 刊名:Journal of the Mechanics and Physics of Solids
- 出版年:2017
- 出版时间:February 2017
- 年:2017
- 卷:99
- 期:Complete
- 页码:289-303
- 全文大小:1322 K
- 卷排序:99
文摘
Elastomeric seals are essential to two great technological advances in oilfields: horizontal drilling and hydraulic fracturing. This paper describes a method to study elastomeric seals by using the pressure-extrusion curve (i.e., the relation between the drop of pressure across a seal and the volume of extrusion of the elastomer). Emphasis is placed on a common mode of failure found in oilfields: leak caused by a crack across the length of a long seal. We obtain an analytical solution of large elastic deformation, which is analogous to the Poiseuille flow of viscous liquids. We further obtain analytical expressions for the energy release rate of a crack and the critical pressure for the onset of its propagation. The theory predicts the pressure-extrusion curve using material parameters (elastic modulus, sliding stress, and fracture energy) and geometric parameters (thickness, length, and precompression). We fabricate seals of various parameters in transparent chambers on a desktop, and watch the seals extrude, slide, rupture and leak. The experimentally measured pressure-extrusion curves agree with theoretical predictions remarkably well.