Identification of two-dimensional pantographic structure via a linear D4 orthotropic second gradient elastic model
A linear elastic second gradient orthotropic two-dimensional solid that is invariant under 90 ∘ rotation and for mirror transformation is considered. Such anisotropy is the most general for pantographic structures that are composed of two identical orthogonal families of fibers. It is well known in...
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| Published in | Journal of engineering mathematics Vol. 103; no. 1; pp. 1 - 21 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.04.2017
Springer Nature B.V |
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| Online Access | Get full text |
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| Abstract | A linear elastic second gradient orthotropic two-dimensional solid that is invariant under
90
∘
rotation and for mirror transformation is considered. Such anisotropy is the most general for pantographic structures that are composed of two identical orthogonal families of fibers. It is well known in the literature that the corresponding strain energy depends on nine constitutive parameters: three parameters related to the first gradient part of the strain energy and six parameters related to the second gradient part of the strain energy. In this paper, analytical solutions for simple problems, which are here referred to the heavy sheet, to the nonconventional bending, and to the trapezoidal cases, are developed and presented. On the basis of such analytical solutions, gedanken experiments were developed in such a way that the whole set of the nine constitutive parameters is completely characterized in terms of the materials that the fibers are made of (i.e., of the Young’s modulus of the fiber materials), of their cross sections (i.e., of the area and of the moment of inertia of the fiber cross sections), and of the distance between the nearest pivots. On the basis of these considerations, a remarkable form of the strain energy is derived in terms of the displacement fields that closely resembles the strain energy of simple Euler beams. Numerical simulations confirm the validity of the presented results. Classic bone-shaped deformations are derived in standard bias numerical tests and the presence of a floppy mode is also made numerically evident in the present continuum model. Finally, we also show that the largeness of the boundary layer depends on the moment of inertia of the fibers. |
|---|---|
| AbstractList | A linear elastic second gradient orthotropic two-dimensional solid that is invariant under
90
∘
rotation and for mirror transformation is considered. Such anisotropy is the most general for pantographic structures that are composed of two identical orthogonal families of fibers. It is well known in the literature that the corresponding strain energy depends on nine constitutive parameters: three parameters related to the first gradient part of the strain energy and six parameters related to the second gradient part of the strain energy. In this paper, analytical solutions for simple problems, which are here referred to the heavy sheet, to the nonconventional bending, and to the trapezoidal cases, are developed and presented. On the basis of such analytical solutions, gedanken experiments were developed in such a way that the whole set of the nine constitutive parameters is completely characterized in terms of the materials that the fibers are made of (i.e., of the Young’s modulus of the fiber materials), of their cross sections (i.e., of the area and of the moment of inertia of the fiber cross sections), and of the distance between the nearest pivots. On the basis of these considerations, a remarkable form of the strain energy is derived in terms of the displacement fields that closely resembles the strain energy of simple Euler beams. Numerical simulations confirm the validity of the presented results. Classic bone-shaped deformations are derived in standard bias numerical tests and the presence of a floppy mode is also made numerically evident in the present continuum model. Finally, we also show that the largeness of the boundary layer depends on the moment of inertia of the fibers. A linear elastic second gradient orthotropic two-dimensional solid that is invariant under 90 ∘ rotation and for mirror transformation is considered. Such anisotropy is the most general for pantographic structures that are composed of two identical orthogonal families of fibers. It is well known in the literature that the corresponding strain energy depends on nine constitutive parameters: three parameters related to the first gradient part of the strain energy and six parameters related to the second gradient part of the strain energy. In this paper, analytical solutions for simple problems, which are here referred to the heavy sheet, to the nonconventional bending, and to the trapezoidal cases, are developed and presented. On the basis of such analytical solutions, gedanken experiments were developed in such a way that the whole set of the nine constitutive parameters is completely characterized in terms of the materials that the fibers are made of (i.e., of the Young’s modulus of the fiber materials), of their cross sections (i.e., of the area and of the moment of inertia of the fiber cross sections), and of the distance between the nearest pivots. On the basis of these considerations, a remarkable form of the strain energy is derived in terms of the displacement fields that closely resembles the strain energy of simple Euler beams. Numerical simulations confirm the validity of the presented results. Classic bone-shaped deformations are derived in standard bias numerical tests and the presence of a floppy mode is also made numerically evident in the present continuum model. Finally, we also show that the largeness of the boundary layer depends on the moment of inertia of the fibers. |
| Author | Giorgio, Ivan Andreaus, Ugo Placidi, Luca |
| Author_xml | – sequence: 1 givenname: Luca orcidid: 0000-0002-1461-3997 surname: Placidi fullname: Placidi, Luca email: luca.placidi@uninettunouniversity.net organization: Corso Vittorio Emanuele II 39 – sequence: 2 givenname: Ugo surname: Andreaus fullname: Andreaus, Ugo organization: Università di Roma La Sapienza – sequence: 3 givenname: Ivan surname: Giorgio fullname: Giorgio, Ivan organization: Università di Roma La Sapienza |
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| Copyright | Springer Science+Business Media Dordrecht 2016 Copyright Springer Science & Business Media 2017 |
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| Keywords | Second gradient elasticity 74Q15 Identification Analytical solution Floppy mode Pantographic structures 74A30 |
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81 LJ Walpole (9856_CR101) 1984; 391 A Misra (9856_CR79) 2012; 49 K Naumenko (9856_CR3) 2014; 112 GC Ruta (9856_CR13) 2008; 46 A Madeo (9856_CR51) 2013; 61 F dell’Isola (9856_CR56) 1997; 32 F dell’Isola (9856_CR1) 2015; 66 P Neff (9856_CR20) 2009; 46 A Madeo (9856_CR62) 2008; 3 G Piccardo (9856_CR74) 2014; 27 NL Rizzi (9856_CR14) 2013; 68 A Misra (9856_CR35) 2015; 27 DJ Steigmann (9856_CR7) 1989; 40 DJ Steigmann (9856_CR10) 2015; 31 F dell’Isola (9856_CR34) 2011; 23 9856_CR60 N Roveri (9856_CR41) 2009; 126 I Goda (9856_CR78) 2012; 16 LJ Walpole (9856_CR100) 1981; 21 VA Eremeyev (9856_CR86) 2006; 85 G Piccardo (9856_CR46) 2014; 19 F dell’Isola (9856_CR48) 2012; 92 G Sciarra (9856_CR64) 2008; 3 |
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| Snippet | A linear elastic second gradient orthotropic two-dimensional solid that is invariant under
90
∘
rotation and for mirror transformation is considered. Such... A linear elastic second gradient orthotropic two-dimensional solid that is invariant under 90 ∘ rotation and for mirror transformation is considered. Such... |
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| SubjectTerms | Applications of Mathematics Boundary layers Computational Mathematics and Numerical Analysis Continuum modeling Cross-sections Elastic anisotropy Exact solutions Fibers Mathematical analysis Mathematical and Computational Engineering Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Moments of inertia Parameter identification Strain analysis Strain energy Theoretical and Applied Mechanics |
| Title | Identification of two-dimensional pantographic structure via a linear D4 orthotropic second gradient elastic model |
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