Stress relaxation behavior and life prediction of gasket materials used in proton exchange membrane fuel cells

Guo Li; Jian ming Gong; Jin zhu Tan; Da sheng Zhu; Wen hua Jia

doi:10.1007/s11771-019-4033-7

Stress relaxation behavior and life prediction of gasket materials used in proton exchange membrane fuel cells

Guo Li, Jian ming Gong, Jin zhu Tan, Da sheng Zhu, Wen hua Jia

School of Mechanical and Power Engineering

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

12 Scopus citations

Abstract

Silicone rubber gaskets are employed to keep fuel gases and oxidation in their own zones. Due to the viscosity and elasticity, the assembly force could relax when the silicone rubber is compressed in a proton exchange membrane fuel cell. In this work, the stress relaxation behavior of silicone rubber samples is studied under different temperatures and simulated operating conditions. The results show that the stress relaxes exponentially with time at 25% strain level, especially at higher temperature or with higher acid concentration solution. The three-term Prony series can simulate the viscoelastic behavior well, and the Master curves are established by applying a time-temperature superposition method to estimate the life of the samples. It can save approximately 50% and 78% of the test time when an operating temperature and acid solution are chosen appropriately.

Translated title of the contribution	质子交换膜燃料电池密封材料应力松弛行为研究及寿命预测
Original language	English
Pages (from-to)	623-631
Number of pages	9
Journal	Journal of Central South University
Volume	26
Issue number	3
DOIs	https://doi.org/10.1007/s11771-019-4033-7
State	Published - 1 Mar 2019

Keywords

fuel cell
gasket
life prediction
silicone rubber
stress relaxation

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10.1007/s11771-019-4033-7

Cite this

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title = "Stress relaxation behavior and life prediction of gasket materials used in proton exchange membrane fuel cells",

abstract = "Silicone rubber gaskets are employed to keep fuel gases and oxidation in their own zones. Due to the viscosity and elasticity, the assembly force could relax when the silicone rubber is compressed in a proton exchange membrane fuel cell. In this work, the stress relaxation behavior of silicone rubber samples is studied under different temperatures and simulated operating conditions. The results show that the stress relaxes exponentially with time at 25% strain level, especially at higher temperature or with higher acid concentration solution. The three-term Prony series can simulate the viscoelastic behavior well, and the Master curves are established by applying a time-temperature superposition method to estimate the life of the samples. It can save approximately 50% and 78% of the test time when an operating temperature and acid solution are chosen appropriately.",

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author = "Guo Li and Gong, {Jian ming} and Tan, {Jin zhu} and Zhu, {Da sheng} and Jia, {Wen hua}",

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AU - Li, Guo

AU - Gong, Jian ming

AU - Tan, Jin zhu

AU - Zhu, Da sheng

AU - Jia, Wen hua

PY - 2019/3/1

Y1 - 2019/3/1

N2 - Silicone rubber gaskets are employed to keep fuel gases and oxidation in their own zones. Due to the viscosity and elasticity, the assembly force could relax when the silicone rubber is compressed in a proton exchange membrane fuel cell. In this work, the stress relaxation behavior of silicone rubber samples is studied under different temperatures and simulated operating conditions. The results show that the stress relaxes exponentially with time at 25% strain level, especially at higher temperature or with higher acid concentration solution. The three-term Prony series can simulate the viscoelastic behavior well, and the Master curves are established by applying a time-temperature superposition method to estimate the life of the samples. It can save approximately 50% and 78% of the test time when an operating temperature and acid solution are chosen appropriately.

AB - Silicone rubber gaskets are employed to keep fuel gases and oxidation in their own zones. Due to the viscosity and elasticity, the assembly force could relax when the silicone rubber is compressed in a proton exchange membrane fuel cell. In this work, the stress relaxation behavior of silicone rubber samples is studied under different temperatures and simulated operating conditions. The results show that the stress relaxes exponentially with time at 25% strain level, especially at higher temperature or with higher acid concentration solution. The three-term Prony series can simulate the viscoelastic behavior well, and the Master curves are established by applying a time-temperature superposition method to estimate the life of the samples. It can save approximately 50% and 78% of the test time when an operating temperature and acid solution are chosen appropriately.

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KW - gasket

KW - life prediction

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KW - stress relaxation

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Stress relaxation behavior and life prediction of gasket materials used in proton exchange membrane fuel cells

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