A general analytical approach to the thermoelastic analysis of asymmetric anisotropic nanoplate with polygonal holes

The structural complexity of high-tech industries is often compromised by a combination of thermal, mechanical, and geometric weaknesses. New generation materials and engineering the structure of materials are among the techniques that engineers employ to eliminate these effects. In this study, a co...

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Vydáno v:	Continuum mechanics and thermodynamics Ročník 36; číslo 6; s. 1455 - 1480
Hlavní autoři:	Zeighami, Vahid, Jafari, Mohammad, Altenbach, Holm
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2024 Springer Springer Nature B.V
Témata:	Analysis Analytic functions Anisotropy Carbon Carbon nanotubes Classical and Continuum Physics Complex variables Complexity Composite structures Design Designers Engineering Thermodynamics Exact solutions Finite element method Fluctuations Functionally gradient materials Heat and Mass Transfer Heat flux Heat transfer High technology industry Investigations Laminated materials Laminates Material properties Mathematical analysis Mechanical analysis Mechanical properties Methods Molecular dynamics Nanocomposites Nanotubes Original Article Parameters Parametric analysis Physics Physics and Astronomy Plates (structural members) Polygons Shape effects Stress analysis Structural Materials Theoretical and Applied Mechanics Perforated FG-CNTRC plate Thermoelastic analysis Complex variable method (CVM) Asymmetric nanocomposite plates
ISSN:	0935-1175, 1432-0959
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Abstract	The structural complexity of high-tech industries is often compromised by a combination of thermal, mechanical, and geometric weaknesses. New generation materials and engineering the structure of materials are among the techniques that engineers employ to eliminate these effects. In this study, a comprehensive analysis solution is derived using Lekhnitskii’s complex variable approach with the use of general mapping functions, the concept of functionally graded materials (FGMs), and holomorphic functions in the form of Laurent series. This general solution is used for the thermoelastic analysis of perforated functionally graded carbon nanotube-reinforced composite (FG-CNTRC) plates with polygonal hole. A refined-calibrated rule of mixtures is used to approximate the material property of FG-CNTRC plates according to gradational changes in direction of thickness and available molecular dynamics simulations results. After validation of present analytical solution results with finite element analysis results and available mechanical analysis of composite plates results, stress and moment resultants due to remoting heat flux-mechanical loading is studied. The effect of FG-CNTRC material properties, heat flux condition, and four parameters affecting the shape of the polygonal holes has been investigated. During the present parametric analysis, the results clearly show that the parameters related to the FG-CNTRC material properties, flux conditions, and hole geometry each provide a reliable tool for designers to influence the stress and moment resultants to minimize undesirable stresses. This general formulation is able to calculate thermoelastic parameters (thermal and mechanical parameters, separately) for the generalized problems of the FGM plate or composite laminates with a polygonal hole.
AbstractList	The structural complexity of high-tech industries is often compromised by a combination of thermal, mechanical, and geometric weaknesses. New generation materials and engineering the structure of materials are among the techniques that engineers employ to eliminate these effects. In this study, a comprehensive analysis solution is derived using Lekhnitskii’s complex variable approach with the use of general mapping functions, the concept of functionally graded materials (FGMs), and holomorphic functions in the form of Laurent series. This general solution is used for the thermoelastic analysis of perforated functionally graded carbon nanotube-reinforced composite (FG-CNTRC) plates with polygonal hole. A refined-calibrated rule of mixtures is used to approximate the material property of FG-CNTRC plates according to gradational changes in direction of thickness and available molecular dynamics simulations results. After validation of present analytical solution results with finite element analysis results and available mechanical analysis of composite plates results, stress and moment resultants due to remoting heat flux-mechanical loading is studied. The effect of FG-CNTRC material properties, heat flux condition, and four parameters affecting the shape of the polygonal holes has been investigated. During the present parametric analysis, the results clearly show that the parameters related to the FG-CNTRC material properties, flux conditions, and hole geometry each provide a reliable tool for designers to influence the stress and moment resultants to minimize undesirable stresses. This general formulation is able to calculate thermoelastic parameters (thermal and mechanical parameters, separately) for the generalized problems of the FGM plate or composite laminates with a polygonal hole.
Audience	Academic
Author	Jafari, Mohammad Altenbach, Holm Zeighami, Vahid
Author_xml	– sequence: 1 givenname: Vahid surname: Zeighami fullname: Zeighami, Vahid organization: Faculty of Mechanical Engineering, Shahrood University of Technology – sequence: 2 givenname: Mohammad orcidid: 0000-0002-4199-0368 surname: Jafari fullname: Jafari, Mohammad email: m_jafari821@shahroodut.ac.ir organization: Faculty of Mechanical Engineering, Shahrood University of Technology – sequence: 3 givenname: Holm surname: Altenbach fullname: Altenbach, Holm organization: Lehrstuhl für Technische Mechanik, Institut für Mechanik, Fakultät für Maschinenbau, Otto-von-Guericke-Universität Magdeburg
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SubjectTerms	Analysis Analytic functions Anisotropy Carbon Carbon nanotubes Classical and Continuum Physics Complex variables Complexity Composite structures Design Designers Engineering Thermodynamics Exact solutions Finite element method Fluctuations Functionally gradient materials Heat and Mass Transfer Heat flux Heat transfer High technology industry Investigations Laminated materials Laminates Material properties Mathematical analysis Mechanical analysis Mechanical properties Methods Molecular dynamics Nanocomposites Nanotubes Original Article Parameters Parametric analysis Physics Physics and Astronomy Plates (structural members) Polygons Shape effects Stress analysis Structural Materials Theoretical and Applied Mechanics
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Title	A general analytical approach to the thermoelastic analysis of asymmetric anisotropic nanoplate with polygonal holes
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