The dynamic response of sandwich panels with cellular metal cores to localized impulsive loading

The deformation/failure modes and dynamic response of peripherally clamped square monolithic and sandwich panels of localized impulsive loading were investigated experimentally by metallic foam projectile impact. The sandwich panels comprise three different types of cellular metallic cores, i.e., cl...

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Published inComposites. Part B, Engineering Vol. 94; pp. 52 - 63
Main Authors Jing, Lin, Wang, Zhihua, Zhao, Longmao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2016
Subjects
A. Foams
Aluminum
B. Impact behavior
Cellular
D. Mechanical testing
Deformation
Dynamic response
Foamed metals
Foams
Honeycomb cores
Sandwich construction
Sandwich panel
D. Mechanical testing
Sandwich panel
B. Impact behavior
A. Foams
Online AccessGet full text
ISSN1359-8368
DOI10.1016/j.compositesb.2016.03.035

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Abstract The deformation/failure modes and dynamic response of peripherally clamped square monolithic and sandwich panels of localized impulsive loading were investigated experimentally by metallic foam projectile impact. The sandwich panels comprise three different types of cellular metallic cores, i.e., closed-cell aluminum foam core, open-cell aluminum foam core and aluminum honeycomb core. Experimental results show that all the sandwich panels present mainly large global inelastic deformation with obvious local compressive failure in the central area, except for those open-cell foam core sandwich panels. The dynamic response of sandwich panels is sensitive to the applied impulse and their geometrical configurations. Based on the experimental investigation, a theoretical analysis was developed to predict the dynamic response of sandwich panels by employing a comprehensive yield locus and a modified classic monolithic panel theory. A comparison of experimental results and theoretic predictions was made, and a good agreement was then found. These findings are very useful to guide the engineering applications of metallic sandwich structures for the protection purpose.
AbstractList The deformation/failure modes and dynamic response of peripherally clamped square monolithic and sandwich panels of localized impulsive loading were investigated experimentally by metallic foam projectile impact. The sandwich panels comprise three different types of cellular metallic cores, i.e., closed-cell aluminum foam core, open-cell aluminum foam core and aluminum honeycomb core. Experimental results show that all the sandwich panels present mainly large global inelastic deformation with obvious local compressive failure in the central area, except for those open-cell foam core sandwich panels. The dynamic response of sandwich panels is sensitive to the applied impulse and their geometrical configurations. Based on the experimental investigation, a theoretical analysis was developed to predict the dynamic response of sandwich panels by employing a comprehensive yield locus and a modified classic monolithic panel theory. A comparison of experimental results and theoretic predictions was made, and a good agreement was then found. These findings are very useful to guide the engineering applications of metallic sandwich structures for the protection purpose.
Author Wang, Zhihua
Zhao, Longmao
Jing, Lin
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  givenname: Longmao
  surname: Zhao
  fullname: Zhao, Longmao
  organization: Institute of Applied Mechanics and Biomedical Engineering, Taiyuan University of Technology, Taiyuan 030024, China
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Keywords D. Mechanical testing
Sandwich panel
B. Impact behavior
A. Foams
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Snippet The deformation/failure modes and dynamic response of peripherally clamped square monolithic and sandwich panels of localized impulsive loading were...
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StartPage 52
SubjectTerms A. Foams
Aluminum
B. Impact behavior
Cellular
D. Mechanical testing
Deformation
Dynamic response
Foamed metals
Foams
Honeycomb cores
Sandwich construction
Sandwich panel
Title The dynamic response of sandwich panels with cellular metal cores to localized impulsive loading
URI https://dx.doi.org/10.1016/j.compositesb.2016.03.035
https://www.proquest.com/docview/1809622054
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