Cavitation (elastomers)
Cavitation is the unstable unhindered expansion of a microscopic void in a solid elastomer under the action of tensile hydrostatic stresses. This can occur whenever the hydrostatic tension exceeds 5/6 of Young's modulus.[1]
The cavitation phenomenon may manifest in any of the following situations:
- imposed hydrostatic tensile stress acting on a pre-existing void
- void pressurization due to gases that are generated due to chemical action (as in volatilization of low-molecular weight waxes or oils: 'blowpoint' for insufficiently cured rubber, or 'thermal blowout' for systems operating at very high temperature)
- void pressurization due to gases that come out of solution (as in gases dissolved at high pressure)
References
- Gent, Alan N. (1990). "Cavitation in Rubber: A Cautionary Tale". Rubber Chemistry and Technology. 63 (3): 49–53. doi:10.5254/1.3538266.
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