High strain rate out‐of‐plane compression of birch plywood from ambient to cryogenic temperatures

An extensive series of compression tests with birch plywood specimens is conducted in the out‐of‐plane direction. Various experimental conditions are tested with different temperatures and strain rates. To this end, a specially designed Split Hopkinson pressure bar protocol is defined, and the speci...

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Veröffentlicht in:	Strain 2018-04, Vol.54 (2), p.n/a
Hauptverfasser:	Caetano, L., Grolleau, V., Galpin, B., Penin, A., Capdeville, J.‐D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Compression tests compression, cryogenic temperature Cryogenic temperature Densification Engineering Sciences High strain rate Mechanics Mechanics of materials Plywood Split Hopkinson pressure bars Strain rate
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creator	Caetano, L. Grolleau, V. Galpin, B. Penin, A. Capdeville, J.‐D.
description	An extensive series of compression tests with birch plywood specimens is conducted in the out‐of‐plane direction. Various experimental conditions are tested with different temperatures and strain rates. To this end, a specially designed Split Hopkinson pressure bar protocol is defined, and the specimen dimensions are validated from quasi‐static EN789 standards experiments. Temperatures are ranging from ambient down to −170°C, while strain rates are increased from 0.004/s up to 700/s. The analysis of the experimental results focuses on the hardening behaviour and the following densification regime at large strains. Evolution with temperature and strain rate of the four coefficients of the stress versus strain curve interpolation is discussed, and models are proposed.
doi_str_mv	10.1111/str.12264
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subjects	Compression tests compression, cryogenic temperature Cryogenic temperature Densification Engineering Sciences High strain rate Mechanics Mechanics of materials Plywood Split Hopkinson pressure bars Strain rate
title	High strain rate out‐of‐plane compression of birch plywood from ambient to cryogenic temperatures
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