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Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites

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Zeitschriftentitel: Science and Engineering of Composite Materials
Personen und Körperschaften: Ahmadi, Masoud, Ansari, Reza, Rouhi, Hessam
In: Science and Engineering of Composite Materials, 26, 2019, 1, S. 70-76
Format: E-Article
Sprache: Englisch
veröffentlicht:
Walter de Gruyter GmbH
Schlagwörter:
Materials Chemistry
Ceramics and Composites
author_facet Ahmadi, Masoud
Ansari, Reza
Rouhi, Hessam
Ahmadi, Masoud
Ansari, Reza
Rouhi, Hessam
author Ahmadi, Masoud
Ansari, Reza
Rouhi, Hessam
spellingShingle Ahmadi, Masoud
Ansari, Reza
Rouhi, Hessam
Science and Engineering of Composite Materials
Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
Materials Chemistry
Ceramics and Composites
author_sort ahmadi, masoud
spelling Ahmadi, Masoud Ansari, Reza Rouhi, Hessam 2191-0359 0792-1233 Walter de Gruyter GmbH Materials Chemistry Ceramics and Composites http://dx.doi.org/10.1515/secm-2017-0279 <jats:title>Abstract</jats:title> <jats:p>A multiscale finite element method is adopted in this paper to study the vibrational characteristics of polymer matrix composite plates reinforced with the combination of carbon fibers (CFs) and carbon nanotubes (CNTs). The effects of nanoscale and microscale are coupled through a two-step procedure. In the first step, random dispersion of CNTs into the polymer matrix is modelled using a three-phase representative volume element (RVE). In the selected RVE, the influence of the interphase formed because of non-bonded interactions between the polymer matrix and CNTs is taken into account. In the second step, the distribution of CFs into the composite is modelled, and the elastic properties of CF-CNT-polymer matrix hybrid composite are calculated for various values of volume fractions of reinforcement phases. Then, the free and forced vibration behaviors of composite plates are analyzed. It is considered that the plates have rectangular, circular, and annular shapes and are under clamped/simply supported edge conditions. The effects of CNT/CF reinforcement on the elastic modulus and density of composite and on the free/forced vibration response of the considered structures are investigated. It is shown that the vibrational behavior of plates is significantly affected by the hybrid reinforcement with CNT and CF.</jats:p> Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites Science and Engineering of Composite Materials
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title Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_unstemmed Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_full Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_fullStr Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_full_unstemmed Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_short Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_sort free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
topic Materials Chemistry
Ceramics and Composites
url http://dx.doi.org/10.1515/secm-2017-0279
publishDate 2019
physical 70-76
description <jats:title>Abstract</jats:title> <jats:p>A multiscale finite element method is adopted in this paper to study the vibrational characteristics of polymer matrix composite plates reinforced with the combination of carbon fibers (CFs) and carbon nanotubes (CNTs). The effects of nanoscale and microscale are coupled through a two-step procedure. In the first step, random dispersion of CNTs into the polymer matrix is modelled using a three-phase representative volume element (RVE). In the selected RVE, the influence of the interphase formed because of non-bonded interactions between the polymer matrix and CNTs is taken into account. In the second step, the distribution of CFs into the composite is modelled, and the elastic properties of CF-CNT-polymer matrix hybrid composite are calculated for various values of volume fractions of reinforcement phases. Then, the free and forced vibration behaviors of composite plates are analyzed. It is considered that the plates have rectangular, circular, and annular shapes and are under clamped/simply supported edge conditions. The effects of CNT/CF reinforcement on the elastic modulus and density of composite and on the free/forced vibration response of the considered structures are investigated. It is shown that the vibrational behavior of plates is significantly affected by the hybrid reinforcement with CNT and CF.</jats:p>
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author Ahmadi, Masoud, Ansari, Reza, Rouhi, Hessam
author_facet Ahmadi, Masoud, Ansari, Reza, Rouhi, Hessam, Ahmadi, Masoud, Ansari, Reza, Rouhi, Hessam
author_sort ahmadi, masoud
container_issue 1
container_start_page 70
container_title Science and Engineering of Composite Materials
container_volume 26
description <jats:title>Abstract</jats:title> <jats:p>A multiscale finite element method is adopted in this paper to study the vibrational characteristics of polymer matrix composite plates reinforced with the combination of carbon fibers (CFs) and carbon nanotubes (CNTs). The effects of nanoscale and microscale are coupled through a two-step procedure. In the first step, random dispersion of CNTs into the polymer matrix is modelled using a three-phase representative volume element (RVE). In the selected RVE, the influence of the interphase formed because of non-bonded interactions between the polymer matrix and CNTs is taken into account. In the second step, the distribution of CFs into the composite is modelled, and the elastic properties of CF-CNT-polymer matrix hybrid composite are calculated for various values of volume fractions of reinforcement phases. Then, the free and forced vibration behaviors of composite plates are analyzed. It is considered that the plates have rectangular, circular, and annular shapes and are under clamped/simply supported edge conditions. The effects of CNT/CF reinforcement on the elastic modulus and density of composite and on the free/forced vibration response of the considered structures are investigated. It is shown that the vibrational behavior of plates is significantly affected by the hybrid reinforcement with CNT and CF.</jats:p>
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physical 70-76
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spelling Ahmadi, Masoud Ansari, Reza Rouhi, Hessam 2191-0359 0792-1233 Walter de Gruyter GmbH Materials Chemistry Ceramics and Composites http://dx.doi.org/10.1515/secm-2017-0279 <jats:title>Abstract</jats:title> <jats:p>A multiscale finite element method is adopted in this paper to study the vibrational characteristics of polymer matrix composite plates reinforced with the combination of carbon fibers (CFs) and carbon nanotubes (CNTs). The effects of nanoscale and microscale are coupled through a two-step procedure. In the first step, random dispersion of CNTs into the polymer matrix is modelled using a three-phase representative volume element (RVE). In the selected RVE, the influence of the interphase formed because of non-bonded interactions between the polymer matrix and CNTs is taken into account. In the second step, the distribution of CFs into the composite is modelled, and the elastic properties of CF-CNT-polymer matrix hybrid composite are calculated for various values of volume fractions of reinforcement phases. Then, the free and forced vibration behaviors of composite plates are analyzed. It is considered that the plates have rectangular, circular, and annular shapes and are under clamped/simply supported edge conditions. The effects of CNT/CF reinforcement on the elastic modulus and density of composite and on the free/forced vibration response of the considered structures are investigated. It is shown that the vibrational behavior of plates is significantly affected by the hybrid reinforcement with CNT and CF.</jats:p> Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites Science and Engineering of Composite Materials
spellingShingle Ahmadi, Masoud, Ansari, Reza, Rouhi, Hessam, Science and Engineering of Composite Materials, Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites, Materials Chemistry, Ceramics and Composites
title Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_full Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_fullStr Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_full_unstemmed Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_short Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_sort free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
title_unstemmed Free and forced vibration analysis of rectangular/circular/annular plates made of carbon fiber-carbon nanotube-polymer hybrid composites
topic Materials Chemistry, Ceramics and Composites
url http://dx.doi.org/10.1515/secm-2017-0279