A Coupled Mori–Tanaka model and FEM RVE approach for the geometrical nonlinear dynamic response of the FG-CNTRC plate based on a novel shear strain function using isogeometric finite element procedure
In this study, Mori–Tanaka micromechanical model has been coupled with finite element representative volume element (RVE) approach to model functionally graded CNT reinforced (FG-CNTRC) plate. The coupled model also termed as extended Mori–Tanaka (E-MT) effectively determines the mechanical properti...
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| Published in | Composite structures Vol. 280; p. 114947 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier Ltd
15.01.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0263-8223 1879-1085 |
| DOI | 10.1016/j.compstruct.2021.114947 |
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| Abstract | In this study, Mori–Tanaka micromechanical model has been coupled with finite element representative volume element (RVE) approach to model functionally graded CNT reinforced (FG-CNTRC) plate. The coupled model also termed as extended Mori–Tanaka (E-MT) effectively determines the mechanical properties of the CNT reinforced composite plates. The E-MT model has the provision to consider different types orientation of the CNT fibers in matrix phase with the incorporation of second order orientation tensor matrix. The solution of the E-MT model has been propagated to the FG-CNTRC structural model to obtain the geometrically nonlinear response. The nonlinear governing equations of motions are obtained using the Green–Lagrange strain field and solved using nonlinear Newmark’s time integration method. The effect of various parameters like aspect ratio of CNT reinforcement, orientation of the CNT fibers, span thickness ratio of the plate, different type of edge constraint, and the gradation of the CNT fiber across the thickness of the plate have been studied in this paper.
[Display omitted]
•A simple Mori-Tanaka model has been presented for the CNT reinforced composites by considering size dependent parameters for different elastic modulus.•The study of the different types of randomness of the CNT fiber in the matrix phase has been performed by employing the Mori-Tanaka mean field homogenization procedure and FEM RVE approach.•The nonlinearity of all the field variables are considered using the Green-Lagrange strain field.•Two new type of higher order shear strain function have been proposed. |
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| AbstractList | In this study, Mori–Tanaka micromechanical model has been coupled with finite element representative volume element (RVE) approach to model functionally graded CNT reinforced (FG-CNTRC) plate. The coupled model also termed as extended Mori–Tanaka (E-MT) effectively determines the mechanical properties of the CNT reinforced composite plates. The E-MT model has the provision to consider different types orientation of the CNT fibers in matrix phase with the incorporation of second order orientation tensor matrix. The solution of the E-MT model has been propagated to the FG-CNTRC structural model to obtain the geometrically nonlinear response. The nonlinear governing equations of motions are obtained using the Green–Lagrange strain field and solved using nonlinear Newmark’s time integration method. The effect of various parameters like aspect ratio of CNT reinforcement, orientation of the CNT fibers, span thickness ratio of the plate, different type of edge constraint, and the gradation of the CNT fiber across the thickness of the plate have been studied in this paper.
[Display omitted]
•A simple Mori-Tanaka model has been presented for the CNT reinforced composites by considering size dependent parameters for different elastic modulus.•The study of the different types of randomness of the CNT fiber in the matrix phase has been performed by employing the Mori-Tanaka mean field homogenization procedure and FEM RVE approach.•The nonlinearity of all the field variables are considered using the Green-Lagrange strain field.•Two new type of higher order shear strain function have been proposed. |
| ArticleNumber | 114947 |
| Author | Singh, B.N. Adhikari, Balakrishna |
| Author_xml | – sequence: 1 givenname: Balakrishna surname: Adhikari fullname: Adhikari, Balakrishna email: adhikari.balakrishna@gmail.com – sequence: 2 givenname: B.N. surname: Singh fullname: Singh, B.N. email: bnsingh@aero.iitkgp.ernet.in |
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| CitedBy_id | crossref_primary_10_1007_s11831_024_10132_4 crossref_primary_10_1016_j_compstruct_2023_116881 crossref_primary_10_32604_cmes_2024_047327 crossref_primary_10_1016_j_commatsci_2023_112548 crossref_primary_10_1080_01495739_2024_2415027 crossref_primary_10_1002_pc_28686 crossref_primary_10_1016_j_ast_2023_108806 crossref_primary_10_3390_math10030408 |
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| Keywords | Atomistic continuum model IGA New higher order shear strain functions FG-CNTRC Mori–Tanaka micromechanical model Nonlinear free and forced vibration response Green–Lagrange nonlinearity RVE approach |
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| SubjectTerms | Atomistic continuum model FG-CNTRC Green–Lagrange nonlinearity IGA Mori–Tanaka micromechanical model New higher order shear strain functions Nonlinear free and forced vibration response RVE approach |
| Title | A Coupled Mori–Tanaka model and FEM RVE approach for the geometrical nonlinear dynamic response of the FG-CNTRC plate based on a novel shear strain function using isogeometric finite element procedure |
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