Numerical Modeling of Brittle Mineral Foam in a Sacrificial Cladding Under Blast Loading

Aldjabar Aminou; Bachir Belkassem; Oussama Atoui; Lincy Pyl; David Lecompte

Numerical Modeling of Brittle Mineral Foam in a Sacrificial Cladding Under Blast Loading

Aldjabar Aminou, Bachir Belkassem, Oussama Atoui, Lincy Pyl, David Lecompte

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Abstract

Cellular materials, such as mineral foams, have proven to be excellent energy absorbents. They can be used as crushable core in sacrificial cladding (SC) for blast mitigation. In this study, the blast absorption capability of a brittle mineral foam-based SC is investigated through finite element modeling using the LS-DYNA software. The SC consisted of a thin aluminum plate clamped into a rigid steel frame. The blast load was generated by 25 g of TNT equivalent. The blast absorption capability of the considered SC was evaluated by comparing the maximum out-of-plane displacement of the center of the plate subjected to
a blast load with and without the brittle mineral foam. The presence of the brittle mineral foam reduces the maximum out-of-plane displacement of the center of the plate at least by a factor two.The brittle mineral foam is modeled both in solid elements and smoothed-particle hydrodynamics (SPH) with Fu Chang’s constitutive material law based exclusively on the results of quasi-static compression tests of the foam and a phenomenological relation between stress and strain rate. The numerical model with SPH predicts the maximum displacement of the center of the aluminum plate obtained experimentally with an average relative error of 5%.

Original language	English
Title of host publication	25ème Congrès Français de Mécanique
Publisher	Association Française de Mécanique
Pages	4-14
Number of pages	11
Publication status	Published - Sept 2022
Event	Congrès Français de Mécanique CFM 2022 : Congrès Français de Mécanique CFM 2022 - France (Nantes), Nantes , France Duration: 29 Aug 2022 → 2 Sept 2022

Conference

Conference	Congrès Français de Mécanique CFM 2022
Abbreviated title	CFM 2022
Country/Territory	France
City	Nantes
Period	29/08/22 → 2/09/22

Keywords

Blast loading; brittle mineral foam; sacrificial cladding; numerical modeling

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@inproceedings{03ce7bf1ea184697876bf602edc5bb95,

title = "Numerical Modeling of Brittle Mineral Foam in a Sacrificial Cladding Under Blast Loading",

abstract = "Cellular materials, such as mineral foams, have proven to be excellent energy absorbents. They can be used as crushable core in sacrificial cladding (SC) for blast mitigation. In this study, the blast absorption capability of a brittle mineral foam-based SC is investigated through finite element modeling using the LS-DYNA software. The SC consisted of a thin aluminum plate clamped into a rigid steel frame. The blast load was generated by 25 g of TNT equivalent. The blast absorption capability of the considered SC was evaluated by comparing the maximum out-of-plane displacement of the center of the plate subjected toa blast load with and without the brittle mineral foam. The presence of the brittle mineral foam reduces the maximum out-of-plane displacement of the center of the plate at least by a factor two.The brittle mineral foam is modeled both in solid elements and smoothed-particle hydrodynamics (SPH) with Fu Chang{\textquoteright}s constitutive material law based exclusively on the results of quasi-static compression tests of the foam and a phenomenological relation between stress and strain rate. The numerical model with SPH predicts the maximum displacement of the center of the aluminum plate obtained experimentally with an average relative error of 5%.",

keywords = "Blast loading; brittle mineral foam; sacrificial cladding; numerical modeling",

author = "Aldjabar Aminou and Bachir Belkassem and Oussama Atoui and Lincy Pyl and David Lecompte",

year = "2022",

month = sep,

language = "English",

pages = "4--14",

booktitle = "25{\`e}me Congr{\`e}s Fran{\c c}ais de M{\'e}canique",

publisher = "Association Fran{\c c}aise de M{\'e}canique",

note = "Congr{\`e}s Fran{\c c}ais de M{\'e}canique CFM 2022 : Congr{\`e}s Fran{\c c}ais de M{\'e}canique CFM 2022 , CFM 2022 ; Conference date: 29-08-2022 Through 02-09-2022",

}

TY - GEN

T1 - Numerical Modeling of Brittle Mineral Foam in a Sacrificial Cladding Under Blast Loading

AU - Aminou, Aldjabar

AU - Belkassem, Bachir

AU - Atoui, Oussama

AU - Pyl, Lincy

AU - Lecompte, David

PY - 2022/9

Y1 - 2022/9

N2 - Cellular materials, such as mineral foams, have proven to be excellent energy absorbents. They can be used as crushable core in sacrificial cladding (SC) for blast mitigation. In this study, the blast absorption capability of a brittle mineral foam-based SC is investigated through finite element modeling using the LS-DYNA software. The SC consisted of a thin aluminum plate clamped into a rigid steel frame. The blast load was generated by 25 g of TNT equivalent. The blast absorption capability of the considered SC was evaluated by comparing the maximum out-of-plane displacement of the center of the plate subjected toa blast load with and without the brittle mineral foam. The presence of the brittle mineral foam reduces the maximum out-of-plane displacement of the center of the plate at least by a factor two.The brittle mineral foam is modeled both in solid elements and smoothed-particle hydrodynamics (SPH) with Fu Chang’s constitutive material law based exclusively on the results of quasi-static compression tests of the foam and a phenomenological relation between stress and strain rate. The numerical model with SPH predicts the maximum displacement of the center of the aluminum plate obtained experimentally with an average relative error of 5%.

AB - Cellular materials, such as mineral foams, have proven to be excellent energy absorbents. They can be used as crushable core in sacrificial cladding (SC) for blast mitigation. In this study, the blast absorption capability of a brittle mineral foam-based SC is investigated through finite element modeling using the LS-DYNA software. The SC consisted of a thin aluminum plate clamped into a rigid steel frame. The blast load was generated by 25 g of TNT equivalent. The blast absorption capability of the considered SC was evaluated by comparing the maximum out-of-plane displacement of the center of the plate subjected toa blast load with and without the brittle mineral foam. The presence of the brittle mineral foam reduces the maximum out-of-plane displacement of the center of the plate at least by a factor two.The brittle mineral foam is modeled both in solid elements and smoothed-particle hydrodynamics (SPH) with Fu Chang’s constitutive material law based exclusively on the results of quasi-static compression tests of the foam and a phenomenological relation between stress and strain rate. The numerical model with SPH predicts the maximum displacement of the center of the aluminum plate obtained experimentally with an average relative error of 5%.

KW - Blast loading; brittle mineral foam; sacrificial cladding; numerical modeling

M3 - Conference paper

SP - 4

EP - 14

BT - 25ème Congrès Français de Mécanique

PB - Association Française de Mécanique

T2 - Congrès Français de Mécanique CFM 2022

Y2 - 29 August 2022 through 2 September 2022

ER -

Numerical Modeling of Brittle Mineral Foam in a Sacrificial Cladding Under Blast Loading

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