Non-dimensional assessments to estimate decompression failure in polymers for hydrogen systems

Polymer materials subjected to gases at high-pressure can have issues during decompression. For instance, a sudden decompression can promote the formation of cavities inside the material. This phenomenon is known as cavitation or eXposive Decompression Failure (XDF). There is a body of scientific ar...

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Bibliographic Details
Published in:International journal of hydrogen energy 2020-02, Vol.45 (11), p.6738-6744
Main Authors: Melnichuk, Maximiliano, Thiébaud, Frédéric, Perreux, Dominique
Format: Article
Language:English
Subjects:
Buckling
Cavitation
Engineering Sciences
Explosive decompression failure
Hydrogen storage
Mechanics
Mechanics of materials
Non-dimensional approach
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Summary:Polymer materials subjected to gases at high-pressure can have issues during decompression. For instance, a sudden decompression can promote the formation of cavities inside the material. This phenomenon is known as cavitation or eXposive Decompression Failure (XDF). There is a body of scientific articles discussing different aspects of cavitation phenomenon, which indicate that the degree of damage is proportional to saturation pressure, depressurisation rate, and material thickness, among other parameters. In this article we propose a general approach by non-dimensional parameters to estimate the risk of cavitation. Numerical results were validated with bibliographic evidence of cavitation in polymers, for both thermoplastics and elastomers. Present results can be used as guidelines for design of systems involving polymers under high pressure, such as o-rings or liners in type IV hydrogen containers. •Buckling failure is a current problem in type IV hydrogen containers.•Liner cavitation has recently being considered as a relevant issue.•Cavitation risk is estimated by non-dimensional parameters.•Numerical results were validated with bibliography evidence of cavitation.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2019.12.107