Localized Structural Instability and Dynamic Strength of Brittle Materials

Yu. I. Meshcheryakov; A. K. Divakov; N. I. Zhigacheva; G. V. Konovalov

doi:10.1134/S0021894419010206

Localized Structural Instability and Dynamic Strength of Brittle Materials

Authors: Meshcheryakov Y.I.¹, Divakov A.K.¹, Zhigacheva N.I.¹, Konovalov G.V.¹
Affiliations:
1. Institute of Problems of Mechanical Engineering
Issue: Vol 60, No 1 (2019)
Pages: 167-175
Section: Article
URL: https://journals.rcsi.science/0021-8944/article/view/161540
DOI: https://doi.org/10.1134/S0021894419010206
ID: 161540

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Abstract

Four brittle materials are subjected to shock tests: gabbrodiabase, two modifications of cast iron, fused quartz, and beryllium. An interferometer is used to locally probe a free surface in order to calculate its velocity, thereby determining the criterion of the initial stage of brittle fracture of all materials tested—the formation of horizontal steps at the forefront of a compression pulse, which indicate the presence of local sources of fracture of the material. It is determined that the brittle material resists the shock compression as long as it has the reversible transfer of momentum and energy of the processes occurring at meso- and macrolevels.

Keywords

shock tests, localized brittle fracture, spall strength

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Localized Structural Instability and Dynamic Strength of Brittle Materials

Full Text

Abstract

Keywords

About the authors

Yu. I. Meshcheryakov

A. K. Divakov

N. I. Zhigacheva

G. V. Konovalov

Supplementary files