Torsional Characteristics of Carbon Nanotubes: Micropolar Elasticity Models and Molecular Dynamics Simulation

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dc.contributor.author Razie Izadi
dc.contributor.author Meral Tuna
dc.contributor.author Patrizia Trovalusci
dc.contributor.author Esmaeal Ghavanloo
dc.contributor.author Ghavanloo, Esmaeal
dc.contributor.author Trovalusci, Patrizia
dc.contributor.author Izadi, Razie
dc.contributor.author Tuna, Meral
dc.date FEB
dc.date.accessioned 2025-10-06T16:22:36Z
dc.date.issued 2021
dc.description.abstract Efficient application of carbon nanotubes (CNTs) in nano-devices and nano-materials requires comprehensive understanding of their mechanical properties. As observations suggest size dependent behaviour non-classical theories preserving the memory of body's internal structure via additional material parameters offer great potential when a continuum modelling is to be preferred. In the present study micropolar theory of elasticity is adopted due to its peculiar character allowing for incorporation of scale effects through additional kinematic descriptors and work-conjugated stress measures. An optimisation approach is presented to provide unified material parameters for two specific class of single-walled carbon nanotubes (e.g. armchair and zigzag) by minimizing the difference between the apparent shear modulus obtained from molecular dynamics (MD) simulation and micropolar beam model considering both solid and tubular cross-sections. The results clearly reveal that micropolar theory is more suitable compared to internally constraint couple stress theory due to the essentiality of having skew-symmetric stress and strain measures as well as to the classical local theory (Cauchy of Grade 1) which cannot accounts for scale effects. To the best of authors' knowledge this is the first time that unified material parameters of CNTs are derived through a combined MD-micropolar continuum theory.
dc.description.sponsorship DISG, Sapienza University of Rome; Italian Ministry of Education, University and Research [B86J16002300001, CUP: B88D19001130001]; Sapienza Research Grants Progetti Medi 2017 [B83C17001440005]; Progetti Grandi 2018 [RG1181642E3B3117]
dc.description.sponsorship This work was done when Razie Izadi had a research scholarship at DISG, Sapienza University of Rome, with financial support of Italian Ministry of Education, University and Research, PRIN 2017, project 2017HFPKZY (Grant No. B86J16002300001) Modeling of constitutive laws for traditional and innovative building materials CUP: B88D19001130001, with Patrizia Trovalusci as Sapienza local PI. The support of Sapienza Research Grants Progetti Medi 2017 (Grant No. B83C17001440005) and Progetti Grandi 2018 (Protocol No. RG1181642E3B3117) are also acknowledged.
dc.description.sponsorship Funding: This work was done when Razie Izadi had a research scholarship at DISG, Sapienza University of Rome, with financial support of Italian Ministry of Education, University and Research, PRIN 2017, project 2017HFPKZY (Grant No. B86J16002300001) “Modeling of constitutive laws for traditional and innovative building materials ” CUP: B88D19001130001, with Patrizia Trovalusci as Sapienza local PI. The support of Sapienza Research Grants “Progetti Medi” 2017 (Grant No. B83C17001440005) and “Progetti Grandi” 2018 (Protocol No. RG1181642E3B3117) are also acknowledged.
dc.description.sponsorship Ministero dell’Istruzione, dell’Università e della Ricerca, MIUR, (2017HFPKZY, B83C17001440005, B86J16002300001, B88D19001130001, RG1181642E3B3117); Ministero dell’Istruzione, dell’Università e della Ricerca, MIUR; Sapienza Università di Roma
dc.identifier.doi 10.3390/nano11020453
dc.identifier.issn 2079-4991
dc.identifier.scopus 2-s2.0-85100691680
dc.identifier.uri http://dx.doi.org/10.3390/nano11020453
dc.identifier.uri https://gcris.yasar.edu.tr/handle/123456789/7428
dc.identifier.uri https://doi.org/10.3390/nano11020453
dc.language.iso English
dc.publisher MDPI
dc.relation.ispartof Nanomaterials
dc.rights info:eu-repo/semantics/openAccess
dc.source NANOMATERIALS
dc.subject micropolar continua, molecular dynamics, SWCNTs parameters identification, optimisation
dc.subject COUPLE STRESS THEORY, BUCKLING ANALYSIS, SHELL-MODEL, COMPOSITES, CONTINUA, GRADIENT, SCALE, NANOCOMPOSITES, BEHAVIOR
dc.subject Optimisation
dc.subject Molecular Dynamics
dc.subject SWCNTs Parameters Identification
dc.subject Micropolar Continua
dc.title Torsional Characteristics of Carbon Nanotubes: Micropolar Elasticity Models and Molecular Dynamics Simulation
dc.type Article
dspace.entity.type Publication
gdc.author.id Izadi, Razie/0000-0001-5698-5134
gdc.author.id TROVALUSCI, Patrizia/0000-0001-7946-3590
gdc.author.id Tuna, Meral/0000-0002-0911-9476
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gdc.author.scopusid 56305598100
gdc.author.scopusid 6602160159
gdc.author.wosid Tuna, Meral/AAV-3318-2021
gdc.author.wosid Izadi, Razie/X-5549-2019
gdc.author.wosid TROVALUSCI, Patrizia/E-6166-2010
gdc.author.wosid Ghavanloo, Esmaeal/Q-9206-2019
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gdc.description.department
gdc.description.departmenttemp [Izadi, Razie; Trovalusci, Patrizia] Sapienza Univ Rome, Dept Struct & Geotech Engn, Via A Gramsci 53, I-00197 Rome, Italy; [Tuna, Meral] Yasar Univ, Fac Engn, Agacli Yol 37-39, TR-35100 Izmir, Turkey; [Ghavanloo, Esmaeal] Shiraz Univ, Sch Mech Engn, Shiraz 7196316548, Iran
gdc.description.endpage 20
gdc.description.issue 2
gdc.description.publicationcategory Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı
gdc.description.startpage 453
gdc.description.volume 11
gdc.description.woscitationindex Science Citation Index Expanded
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gdc.identifier.pmid 33670119
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gdc.oaire.keywords Chemistry
gdc.oaire.keywords optimisation
gdc.oaire.keywords SWCNTs parameters identification
gdc.oaire.keywords SWCNTs parameters identification; micropolar continua; molecular dynamics; optimisation
gdc.oaire.keywords Micropolar continua; Molecular Dynamics; SWCNTs parameters identification; Optimisation
gdc.oaire.keywords Micropolar continua; Molecular dynamics; Optimisation; SWCNTs parameters identification
gdc.oaire.keywords QD1-999
gdc.oaire.keywords micropolar continua
gdc.oaire.keywords molecular dynamics
gdc.oaire.keywords Article
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gdc.oaire.sciencefields 0203 mechanical engineering
gdc.oaire.sciencefields 02 engineering and technology
gdc.oaire.sciencefields 0210 nano-technology
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gdc.opencitations.count 33
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person.identifier.orcid Tuna- Meral/0000-0002-0911-9476, TROVALUSCI- Patrizia/0000-0001-7946-3590, Izadi- Razie/0000-0001-5698-5134,
project.funder.name DISG- Sapienza University of Rome, Italian Ministry of Education- University and Research [B86J16002300001- CUP: B88D19001130001], Sapienza Research Grants Progetti Medi 2017 [B83C17001440005], Progetti Grandi 2018 [RG1181642E3B3117]
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