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Indentation failure of foam cored sandwich structure subjected to elevated temperatures

Indentation failure of foam cored sandwich structure subjected to elevated temperatures
Indentation failure of foam cored sandwich structure subjected to elevated temperatures
This research explores the detrimental effect of elevated temperatures on local indentation failure of polymer foam cored sandwich structures with laminated glass fibre reinforced epoxy face sheets. A simple analytical model to predict the critical indentation failure load at elevated temperatures is presented and validated against experimental observations. For this purpose, a sandwich beam loaded in three-point bending with an induced through-thickness elevated temperature profile,was studied experimentally and by means of analytical and finite element models. In the experiment, the through-thickness temperature gradient was induced with an infrared lamp pointing on the top face sheet, while the local displacement and strain fields near the applied point load were recorded by digital image correlation. The analytical model proposed, which accounts for temperature degraded/reduced foam core properties superimposes the local response, approximated by the classical Winkler foundation model, and the global response, obtained by sandwich beam theory. The comparative study has shown that the critical load causing core crushing failure reduces significantly with elevated temperatures by as much as 50 % at an elevated temperature of 90 °C. It is shown that the simple analytical model can predict the local deflections and core stresses of foam cored composite sandwich structures subjected to simultaneous localised mechanical loading and elevated temperatures. Thus, the analytical model can be used as a preliminary design tool to determine the critical core crushing load at elevated temperatures.
sandwich structures, foam core material, indentation failure, elevated
1530-7972
Laux, Tobias
8afcd5ae-8ebf-46b5-b0d5-5dfaa32e6b73
Thomsen, Ole T.
f3e60b22-a09f-4d58-90da-d58e37d68047
Laux, Tobias
8afcd5ae-8ebf-46b5-b0d5-5dfaa32e6b73
Thomsen, Ole T.
f3e60b22-a09f-4d58-90da-d58e37d68047

Laux, Tobias and Thomsen, Ole T. (2017) Indentation failure of foam cored sandwich structure subjected to elevated temperatures. Journal of Sandwich Structures and Materials, [17-01784]. (doi:10.1177/1099636217741629).

Record type: Article

Abstract

This research explores the detrimental effect of elevated temperatures on local indentation failure of polymer foam cored sandwich structures with laminated glass fibre reinforced epoxy face sheets. A simple analytical model to predict the critical indentation failure load at elevated temperatures is presented and validated against experimental observations. For this purpose, a sandwich beam loaded in three-point bending with an induced through-thickness elevated temperature profile,was studied experimentally and by means of analytical and finite element models. In the experiment, the through-thickness temperature gradient was induced with an infrared lamp pointing on the top face sheet, while the local displacement and strain fields near the applied point load were recorded by digital image correlation. The analytical model proposed, which accounts for temperature degraded/reduced foam core properties superimposes the local response, approximated by the classical Winkler foundation model, and the global response, obtained by sandwich beam theory. The comparative study has shown that the critical load causing core crushing failure reduces significantly with elevated temperatures by as much as 50 % at an elevated temperature of 90 °C. It is shown that the simple analytical model can predict the local deflections and core stresses of foam cored composite sandwich structures subjected to simultaneous localised mechanical loading and elevated temperatures. Thus, the analytical model can be used as a preliminary design tool to determine the critical core crushing load at elevated temperatures.

Text
Laux_SAGE_Indentation_failure_of_foam_cored_sandwich_structures_subjected_to_elevated_temperatures - Accepted Manuscript
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More information

Accepted/In Press date: 20 October 2017
e-pub ahead of print date: 20 November 2017
Keywords: sandwich structures, foam core material, indentation failure, elevated

Identifiers

Local EPrints ID: 415333
URI: http://eprints.soton.ac.uk/id/eprint/415333
DOI: doi:10.1177/1099636217741629
ISSN: 1530-7972
PURE UUID: 48f7202a-f96a-467a-94a2-ba838f5f1e51

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Date deposited: 07 Nov 2017 17:30
Last modified: 15 Mar 2024 16:40

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Contributors

Author: Tobias Laux
Author: Ole T. Thomsen

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