Thermal and Mechanical Response of Sandwich Panels in Fire

Sandwich panels consisting of two aluminium two face-sheets and a core made of aluminium honeycomb were studied in this paper. These sandwich panels are good candidates for cladding systems employed to protect other structures again blast loadings. In this paper, the mechanical response and deformation of these sandwich panels subjected to simulated blast loadings are investigated experimentally. The effects of impact pulse, foil thickness and cell size of aluminium honeycombs have been discussed.

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SANDWICH PANELS – BEHAVIOR IN FIRE BASED ON FIRE RESISTANCE TESTS

Applications of Structural Fire Engineering ◽

10.14311/asfe.2015.065 ◽

2016 ◽

Cited By ~ 3

Author(s):

Paweł Roszkowski ◽

Paweł Sulik

Keyword(s):

Thermal Insulation ◽

Fire Resistance ◽

Temperature Rise ◽

Sandwich Panel ◽

Sandwich Panels ◽

And Behavior ◽

In Fire ◽

Resistance Tests ◽

Building Elements

<p>Sandwich panel is the material that is easy and quickly to install. Basing on a great experience in the area of determination of the fire resistance class of construction building elements the authors describe the properties and behavior of building elements made of the sandwich panels exposed to fire. The article presents the results of fire resistance tests carried out in accordance with EN 1364-1 non-bearing walls made of sandwich panels with use of different cores.</p>The following parameters were analyzed: temperature rise on unexposed side (I – thermal insulation), integrity (E) depending on the orientations and on the width of the sandwich panels, deflection depending on the thickness of the boards. Conclusions were made on the base of the analysis from fire resistance tests.

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Mechanical response of aluminum foam sandwich structure under impact load

Materials Research Express ◽

10.1088/2053-1591/ac493e ◽

2022 ◽

Author(s):

Wenke Lu ◽

Junyan Zhang

Keyword(s):

Energy Absorption ◽

Mechanical Response ◽

Impact Load ◽

Layer Structure ◽

Sandwich Panels ◽

Absorption Efficiency ◽

Shallow Shells ◽

Double Layer Structure ◽

Energy Absorption Efficiency ◽

Panel Thickness

Abstract This study investigates the mechanical response of aluminum foam sandwich panels, sandwich cylindrical shells, and sandwich shallow shells under impact loads. First, a finite element model of the sandwich panel was established, and an impact load was applied. The numerical results were compared with theoretical and experimental results to verify the model's effectiveness. Second, the energy absorption efficiency and overall deformation of sandwich panels, sandwich cylindrical shells, and sandwich shallow shells under the same impact load were studied. The research shows that the energy absorption performance of the sandwich shells is better than that of the sandwich panels, and the overall deformation is less than that of the sandwich panels. The effect of increasing panel thickness on the two types of sandwich shell studies is based on this basis. The conclusions describe that increasing the panel thickness will significantly reduce the structure's energy absorption efficiency and deformation. Finally, the effect of single-and double-layer structure on the impact resistance of sandwich shells was studied when the total thickness of the sandwich structure was unchanged. The results show that compared with the single-layer structure, the energy absorption efficiency, overall deformation, and contact force between the projectile and structure of the double-layer structure will be reduced.

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An out-of-plane mechanical response of a planar steel frame in fire

Applications of Fire Engineering ◽

10.1201/9781315107202-33 ◽

2017 ◽

pp. 305-313

Author(s):

A. Ogrin ◽

M. Saje ◽

T. Hozjan

Keyword(s):

Mechanical Response ◽

Steel Frame ◽

Out Of Plane ◽

In Fire

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Large deformation of corrugated sandwich panels under three-point bending

Journal of Sandwich Structures & Materials ◽

10.1177/1099636220927650 ◽

2020 ◽

pp. 109963622092765 ◽

Cited By ~ 1

Author(s):

Fukun Xia ◽

Yvonne Durandet ◽

T X Yu ◽

Dong Ruan

Keyword(s):

Energy Absorption ◽

Specific Energy ◽

Mechanical Response ◽

Sandwich Panels ◽

Deformation Mode ◽

Theoretical Models ◽

Peak Force ◽

Specific Energy Absorption ◽

Three Point Bending ◽

Core Height

Corrugated sandwich panels are widely used in engineering applications for their excellent energy absorption and lightweight. In this research, the mechanical response of aluminum corrugated sandwich panels subjected to three-point bending is investigated experimentally, numerically, and theoretically. In the experiments, the sandwich panels were loaded under two conditions, namely base indentation and node indentation. A parametric study is conducted by ABAQUS/explicit to investigate the effects of geometric configurations (corrugation angle, core height, and core thickness) on the deformation mode, peak force, and energy absorption. Both peak force and specific energy absorption vary with the geometric parameters. Theoretical models are further developed to predict the force–displacement curves of the panels under the two loading conditions. The theoretically predicted crushing force is in good agreement with both the experimental and simulated results. Finally, the non-dominated sorting genetic algorithm II is adopted to optimize the geometric configuration to improve the specific energy absorption and reduce the weight of corrugated sandwich panels.

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