TY - JOUR
T1 - Sacrificial cladding design for blast mitigation using low density crushable core systems
AU - Ousji, Hamza
AU - Belkassem, Bachir
AU - Aminou, Aldjabar
AU - Pyl, Lincy
AU - Dhouibi, Mohamed
AU - Lecompte, David
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024
Y1 - 2024
N2 - The aim of this study is to define a simple approach to select an adequate sacrificial cladding configuration (front plate and crushable core parameters) to protect a given structure against a blast load. A simplified one-dimensional model, denoted, the Load-Cladding-Structure (LCS) model is investigated and the effect of the fluid-structure interaction (FSI), the loading rate (LR) and the sacrificial cladding-structure interaction are examined. Strong blast load and two low-density crushable cores are considered: (i) a polyurethane foam (PU), and (ii) a metallic beverage can (MBC). Small scale experimental results are analysed and compared to analytical models. This shows that: (i) the LCS model is a non-conservative model, (ii) both the FSI and the LR have to be considered, and (iii) the use of an adequate sacrificial cladding converts the hazardous blast load into a relatively lower pressure applied over a longer time span. Hence, simple steps are provided to select the front plate characteristics and the crushable core plateau stress and thickness, as a function of the blast load intensity and the structure properties.
AB - The aim of this study is to define a simple approach to select an adequate sacrificial cladding configuration (front plate and crushable core parameters) to protect a given structure against a blast load. A simplified one-dimensional model, denoted, the Load-Cladding-Structure (LCS) model is investigated and the effect of the fluid-structure interaction (FSI), the loading rate (LR) and the sacrificial cladding-structure interaction are examined. Strong blast load and two low-density crushable cores are considered: (i) a polyurethane foam (PU), and (ii) a metallic beverage can (MBC). Small scale experimental results are analysed and compared to analytical models. This shows that: (i) the LCS model is a non-conservative model, (ii) both the FSI and the LR have to be considered, and (iii) the use of an adequate sacrificial cladding converts the hazardous blast load into a relatively lower pressure applied over a longer time span. Hence, simple steps are provided to select the front plate characteristics and the crushable core plateau stress and thickness, as a function of the blast load intensity and the structure properties.
KW - blast mitigation
KW - fluid-structure interaction
KW - load-cladding-structure model
KW - loading rate
KW - Sacrificial cladding
UR - http://www.scopus.com/inward/record.url?scp=85201942376&partnerID=8YFLogxK
U2 - 10.1177/20414196241268039
DO - 10.1177/20414196241268039
M3 - Article
AN - SCOPUS:85201942376
SN - 2041-4196
JO - International Journal of Protective Structures
JF - International Journal of Protective Structures
ER -