Metastable states, relaxation mechanisms, and fracture of liquids under severe loading conditions


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Abstract

The relaxation properties and fracture of glycerol, silicone oil, transformer oil, and water have been studied experimentally under shock wave loading. The power-law strain rate dependences of the stress amplitude and spall strength were found for the compression and rarefaction fronts, respectively. It was shown that temperature has a strong influence on the spall strength of glycerol near the phase transformation temperature. The power laws reflect a self-similar nature of the momentum transfer and fracture mechanisms of liquids that are conventionally observed in solids and governed by the mechanisms of defect-induced structural relaxation. The mechanisms of viscoelasticity are related to the metastable states that may give rise to a collective behavior of displacement field fluctuations (microshearing) in liquids and thus provide a viscoplastic response of liquids under high strain rate loading.

About the authors

A. N. Zubareva

Institute of Problems of Chemical Physics

Email: malgacheva@icmm.ru
Russian Federation, Chernogolovka, 142432

A. V. Utkin

Institute of Problems of Chemical Physics

Email: malgacheva@icmm.ru
Russian Federation, Chernogolovka, 142432

S. V. Uvarov

Institute of Continuous Media Mechanics, Ural Branch

Email: malgacheva@icmm.ru
Russian Federation, Perm, 614013

O. B. Naimark

Institute of Continuous Media Mechanics, Ural Branch

Email: malgacheva@icmm.ru
Russian Federation, Perm, 614013

I. A. Bannikova

Institute of Continuous Media Mechanics, Ural Branch

Author for correspondence.
Email: malgacheva@icmm.ru
Russian Federation, Perm, 614013

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