Mechanical tests, static and modal finite element analysis for MWCNT composite materials

Mechanical tests, static and modal finite element analysis for MWCNT composite materials

The main purpose of this paper is to develop some numerical experiences based on mechanical tests performed on MWCNT (Multi-wall carbon nanotubes) composites created in our Material compartment using finite element commercial codes (here NASTRAN). The results of numerical simulations are consistent...

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Bibliographic Details
Main Authors: Daniela BARAN, Mihaela PETRE, George PELIN, Elena VAJAIAC
Format: Article
Language:English
Published: National Institute for Aerospace Research “Elie Carafoli” - INCAS 2015-03-01
Series:INCAS Bulletin
Subjects:
MCWNT composites
traction tests
bending tests
finite element simulations
Online Access:http://bulletin.incas.ro/files/baran__petre__pelin__vajaiac__vol_7_iss_1.pdf
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spelling doaj-ba404c2693fb4009947f44e25c333b0e2020-11-24T23:30:17ZengNational Institute for Aerospace Research “Elie Carafoli” - INCASINCAS Bulletin2066-82012247-45282015-03-0171132810.13111/2066-8201.2015.7.1.2Mechanical tests, static and modal finite element analysis for MWCNT composite materialsDaniela BARAN0Mihaela PETRE1George PELIN2Elena VAJAIAC3INCAS – National Institute for Aerospace Research “Elie Carafoli”, B-dul Iuliu Maniu 220, Bucharest 061126, Romania baran.daniela@incas.ro*Aerospace Consulting, B-dul Iuliu Maniu 220, Bucharest 061126, Romania petre.mihaela@incas.roINCAS – National Institute for Aerospace Research “Elie Carafoli”, B-dul Iuliu Maniu 220, Bucharest 061126, Romania, pelin.george@incas.roINCAS – National Institute for Aerospace Research “Elie Carafoli”, B-dul Iuliu Maniu 220, Bucharest 061126, Romania, University of Bucharest, Faculty of Physics, Electricity and Magnetism, Solid–State Physics, Biophysics Department, Bucharest – Magurele 077125, Romania vajaiac.elena@incas.roThe main purpose of this paper is to develop some numerical experiences based on mechanical tests performed on MWCNT (Multi-wall carbon nanotubes) composites created in our Material compartment using finite element commercial codes (here NASTRAN). The results of numerical simulations are consistent with the laboratory tests and encourage us to continue to improve the models using NASTRAN capabilities in order to obtain a realistic simulation of aeronautical structures made of such composites, considering their special properties.http://bulletin.incas.ro/files/baran__petre__pelin__vajaiac__vol_7_iss_1.pdfMCWNT compositestraction testsbending testsfinite element simulations
collection DOAJ
language English
format Article
sources DOAJ
author Daniela BARAN
Mihaela PETRE
George PELIN
Elena VAJAIAC
spellingShingle Daniela BARAN
Mihaela PETRE
George PELIN
Elena VAJAIAC
Mechanical tests, static and modal finite element analysis for MWCNT composite materials
INCAS Bulletin
MCWNT composites
traction tests
bending tests
finite element simulations
author_facet Daniela BARAN
Mihaela PETRE
George PELIN
Elena VAJAIAC
author_sort Daniela BARAN
title Mechanical tests, static and modal finite element analysis for MWCNT composite materials
title_short Mechanical tests, static and modal finite element analysis for MWCNT composite materials
title_full Mechanical tests, static and modal finite element analysis for MWCNT composite materials
title_fullStr Mechanical tests, static and modal finite element analysis for MWCNT composite materials
title_full_unstemmed Mechanical tests, static and modal finite element analysis for MWCNT composite materials
title_sort mechanical tests, static and modal finite element analysis for mwcnt composite materials
publisher National Institute for Aerospace Research “Elie Carafoli” - INCAS
series INCAS Bulletin
issn 2066-8201
2247-4528
publishDate 2015-03-01
description The main purpose of this paper is to develop some numerical experiences based on mechanical tests performed on MWCNT (Multi-wall carbon nanotubes) composites created in our Material compartment using finite element commercial codes (here NASTRAN). The results of numerical simulations are consistent with the laboratory tests and encourage us to continue to improve the models using NASTRAN capabilities in order to obtain a realistic simulation of aeronautical structures made of such composites, considering their special properties.
topic MCWNT composites
traction tests
bending tests
finite element simulations
url http://bulletin.incas.ro/files/baran__petre__pelin__vajaiac__vol_7_iss_1.pdf
work_keys_str_mv AT danielabaran mechanicaltestsstaticandmodalfiniteelementanalysisformwcntcompositematerials
AT mihaelapetre mechanicaltestsstaticandmodalfiniteelementanalysisformwcntcompositematerials
AT georgepelin mechanicaltestsstaticandmodalfiniteelementanalysisformwcntcompositematerials
AT elenavajaiac mechanicaltestsstaticandmodalfiniteelementanalysisformwcntcompositematerials
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