Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading

Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading

In this paper, the non-linear dynamic response of novel steel sandwich panel with hollow I-core subjected to blast loading was studied. Special emphasis is placed on the evaluation of midpoint displacements and energy dissipation of the models. Several parameters such as boundary conditions, strain...

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Bibliographic Details
Main Authors: Asghar Vatani Oskouei, Foad Kiakojouri
Format: Article
Language:English
Published: University of Tehran Press 2015-12-01
Series:Civil Engineering Infrastructures Journal
Subjects:
Blast
Dynamic non-linear analysis
Energy dissipation
sandwich panel
Online Access:http://ceij.ut.ac.ir/article_55709_c54bec121513fea132f5b096b1cb0ac6.pdf
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spelling doaj-059031a5e57f4c6d893f796d50e9a2f92020-11-24T20:59:47ZengUniversity of Tehran Press Civil Engineering Infrastructures Journal2322-20932423-66912015-12-0148232334410.7508/ceij.2015.02.00855709Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast LoadingAsghar Vatani Oskouei0Foad Kiakojouri1Department of Civil Engineering, Shahid Rajaee Teacher Training University, P.O.Box 16785-136, Tehran, IranDepartment of Structural Engineering, Islamic Azad University, Takestan Branch, Iran.In this paper, the non-linear dynamic response of novel steel sandwich panel with hollow I-core subjected to blast loading was studied. Special emphasis is placed on the evaluation of midpoint displacements and energy dissipation of the models. Several parameters such as boundary conditions, strain rate, mesh dependency and asymmetrical loading are considered in this study. The material and geometric non-linearities are also considered in the numerical simulation. The results obtained are compared with available experimental data to verify the developed FE model. Modeling techniques are described in detail. According to the results, sandwich panels with hollow I-core allowed more plastic deformation and energy dissipation and less midpoint displacement than conventional I-core sandwich panels and also equivalent solid plate with the same weight and material.http://ceij.ut.ac.ir/article_55709_c54bec121513fea132f5b096b1cb0ac6.pdfBlastDynamic non-linear analysisEnergy dissipationsandwich panel
collection DOAJ
language English
format Article
sources DOAJ
author Asghar Vatani Oskouei
Foad Kiakojouri
spellingShingle Asghar Vatani Oskouei
Foad Kiakojouri
Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
Civil Engineering Infrastructures Journal
Blast
Dynamic non-linear analysis
Energy dissipation
sandwich panel
author_facet Asghar Vatani Oskouei
Foad Kiakojouri
author_sort Asghar Vatani Oskouei
title Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
title_short Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
title_full Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
title_fullStr Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
title_full_unstemmed Non-linear Dynamic Analysis of Steel Hollow I-core Sandwich Panel under Air Blast Loading
title_sort non-linear dynamic analysis of steel hollow i-core sandwich panel under air blast loading
publisher University of Tehran Press
series Civil Engineering Infrastructures Journal
issn 2322-2093
2423-6691
publishDate 2015-12-01
description In this paper, the non-linear dynamic response of novel steel sandwich panel with hollow I-core subjected to blast loading was studied. Special emphasis is placed on the evaluation of midpoint displacements and energy dissipation of the models. Several parameters such as boundary conditions, strain rate, mesh dependency and asymmetrical loading are considered in this study. The material and geometric non-linearities are also considered in the numerical simulation. The results obtained are compared with available experimental data to verify the developed FE model. Modeling techniques are described in detail. According to the results, sandwich panels with hollow I-core allowed more plastic deformation and energy dissipation and less midpoint displacement than conventional I-core sandwich panels and also equivalent solid plate with the same weight and material.
topic Blast
Dynamic non-linear analysis
Energy dissipation
sandwich panel
url http://ceij.ut.ac.ir/article_55709_c54bec121513fea132f5b096b1cb0ac6.pdf
work_keys_str_mv AT asgharvatanioskouei nonlineardynamicanalysisofsteelhollowicoresandwichpanelunderairblastloading
AT foadkiakojouri nonlineardynamicanalysisofsteelhollowicoresandwichpanelunderairblastloading
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