Swellable elastomers under constraint

Yucun Lou; Agathe Robisson; Shengqiang Cai; Zhigang Suo

doi:10.1063/1.4745878

Swellable elastomers under constraint

Yucun Lou
, Agathe Robisson
, Shengqiang Cai
, Zhigang Suo

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Swellable elastomers are widely used in the oilfield to seal the flow of downhole fluids. For example, when a crack appears in self-healing cement, the liquid in the surroundings flows into the crack and permeates into the cement, causing small particles of elastomers in the cement to swell, resulting in the blocking of the flow. Elastomers are also used as large components in swellable packers, which can swell and seal zones in the borehole. In these applications, the elastomers swell against the constraint of stiff materials, such as cement, metal, and rock. The pressure generated by the elastomer against the confinement is a key factor that affects the quality of the sealing. This work develops a systematic approach to predict the magnitude of the pressure in such components. Experiments are carried out to determine the stress-stretch curve, free swelling ratio, and confining pressure. The data are interpreted in terms of a modified Flory-Rehner model.

Original language	English
Article number	034906
Journal	Journal of Applied Physics
Volume	112
Issue number	3
DOIs	https://doi.org/10.1063/1.4745878
State	Published - Aug 2012
Externally published	Yes

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10.1063/1.4745878

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title = "Swellable elastomers under constraint",

abstract = "Swellable elastomers are widely used in the oilfield to seal the flow of downhole fluids. For example, when a crack appears in self-healing cement, the liquid in the surroundings flows into the crack and permeates into the cement, causing small particles of elastomers in the cement to swell, resulting in the blocking of the flow. Elastomers are also used as large components in swellable packers, which can swell and seal zones in the borehole. In these applications, the elastomers swell against the constraint of stiff materials, such as cement, metal, and rock. The pressure generated by the elastomer against the confinement is a key factor that affects the quality of the sealing. This work develops a systematic approach to predict the magnitude of the pressure in such components. Experiments are carried out to determine the stress-stretch curve, free swelling ratio, and confining pressure. The data are interpreted in terms of a modified Flory-Rehner model.",

author = "Yucun Lou and Agathe Robisson and Shengqiang Cai and Zhigang Suo",

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T1 - Swellable elastomers under constraint

AU - Lou, Yucun

AU - Robisson, Agathe

AU - Cai, Shengqiang

AU - Suo, Zhigang

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AB - Swellable elastomers are widely used in the oilfield to seal the flow of downhole fluids. For example, when a crack appears in self-healing cement, the liquid in the surroundings flows into the crack and permeates into the cement, causing small particles of elastomers in the cement to swell, resulting in the blocking of the flow. Elastomers are also used as large components in swellable packers, which can swell and seal zones in the borehole. In these applications, the elastomers swell against the constraint of stiff materials, such as cement, metal, and rock. The pressure generated by the elastomer against the confinement is a key factor that affects the quality of the sealing. This work develops a systematic approach to predict the magnitude of the pressure in such components. Experiments are carried out to determine the stress-stretch curve, free swelling ratio, and confining pressure. The data are interpreted in terms of a modified Flory-Rehner model.

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Swellable elastomers under constraint

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