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Delamination properties of laminated glass windows subject to blast loading

Paolo Del Linz, Paul A. Hooper, Hari Arora Orcid Logo, Yi Wang, David Smith, Bamber R.K. Blackman, John P. Dear

International Journal of Impact Engineering, Volume: 105, Pages: 39 - 53

Swansea University Author: Hari Arora Orcid Logo

Abstract

Delamination processes absorb significant amounts of energy in laminated glass windows when they are subjected to blast loads. Blast tests were performed previously and their results had been used to calculate the loads imposed on the support systems. In this research, the delamination process at re...

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Published in: International Journal of Impact Engineering
ISSN: 0734-743X
Published: 2017
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa37127
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Abstract: Delamination processes absorb significant amounts of energy in laminated glass windows when they are subjected to blast loads. Blast tests were performed previously and their results had been used to calculate the loads imposed on the support systems. In this research, the delamination process at realistic deformation rates was studied to understand the reaction force response obtained. Laboratory tensile tests were performed on pre-cracked laminated glass specimens to investigate their delamination behaviour. The experiments confirmed the presence of a plateau in the force-deflection graphs, suggesting that the delamination process absorbed significant energy. The experimental results were then employed to calibrate FEA models of the delamination process with the aim of estimating the delamination energy of the polyvinyl butyral (PVB) membrane and glass layers and its relationship with deformation speed. The delamination energies obtained through this research, if used with the appropriate PVB material model, are a valuable new tool new tool in the modelling and design of laminated glass façade structures.
Keywords: Blast, Laminated glass, Delamination, Viscoelasticity, Numerical simulations
Start Page: 39
End Page: 53