Journal ArticleDOI
Equilibrium Paths for von Mises Trusses in Finite Elasticity
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In this paper, a general loading condition is considered and the rods are regarded as hyperelastic bodies composed of a homogeneous isotropic material, and the finite displacement fields and deformation gradients are derived under the hypothesis of homogeneous deformations.Abstract:
This paper deals with the equilibrium problem of von Mises trusses in nonlinear elasticity. A general loading condition is considered and the rods are regarded as hyperelastic bodies composed of a homogeneous isotropic material. Under the hypothesis of homogeneous deformations, the finite displacement fields and deformation gradients are derived. Consequently, the Piola-Kirchhoff and Cauchy stress tensors are computed by formulating the boundary-value problem. The equilibrium in the deformed configuration is then written and the stability of the equilibrium paths is assessed through the energy criterion. An application assuming a compressible Mooney-Rivlin material is performed. The equilibrium solutions for the case of vertical load present primary and secondary branches. Although, the stability analysis reveals that the only form of instability is the snap-through phenomenon. Finally, the finite theory is linearized by introducing the hypotheses of small displacement and strain fields. By doing so, the classical solution of the two-bar truss in linear elasticity is recovered.read more
Citations
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Conforming and nonconforming laminated finite element Kirchhoff nanoplates in bending using strain gradient theory
TL;DR: In this paper, a comprehensive numerical finite element implementation of the nonlocal strain gradient theory applied to thin laminated composite nanoplates using Kirchhoff theory is presented, where Hermite interpolation functions are used to approximate membrane and bending degrees of freedom according to the conforming and nonconforming approaches.
Journal ArticleDOI
The Bending of Beams in Finite Elasticity
TL;DR: In this paper, the analysis for the anticlastic bending under constant curvature of nonlinear solids and beams, presented by Lanzoni, Tarantino and Elast, is extended and further developed for the class of slender beams.
Journal ArticleDOI
A nonlinear molecular mechanics model for graphene subjected to large in-plane deformations
TL;DR: In this article, a fully nonlinear stick-and-spring model for graphene subjected to in-plane deformations is presented, where the constitutive behaviors of sticks and springs are defined, respectively, by the modified Morse potential and a nonlinear bond angle potential.
Journal ArticleDOI
Buckling analysis of three-phase CNT/polymer/fiber functionally graded orthotropic plates: Influence of the non-uniform distribution of the oriented fibers on the critical load
TL;DR: In this article, the influence of non-uniform distribution of the oriented fibers along the thickness direction of three-phase CNT/polymer/fiber functionally graded orthotropic plates is analyzed.
Journal ArticleDOI
Equilibrium paths of a three-bar truss in finite elasticity with an application to graphene:
TL;DR: In this article, the authors present the formulation of the equilibrium problem of a three-bar truss in the nonlinear context of finite elasticity, where the bars are composed of a homogeneous, isotropic, and compressibl...
References
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Journal ArticleDOI
Large Deformation Isotropic Elasticity—On the Correlation of Theory and Experiment for Incompressible Rubberlike Solids
TL;DR: In this article, the correlation of theory and experiment for incompressible isotropic elastic solids under finite strain was extended to incorporate the effects of compressibility (under isothermal conditions) with the result that experimental data on the compressibility of rubberlike materials are adequately accounted for.
Journal ArticleDOI
A New Constitutive Relation for Rubber
TL;DR: In this paper, a simple, two-constant, constitutive relation, applicable over the entire range of strains, is proposed for rubber networks and behavior in simple extension is derived as an example.
Book
Stability of structures : elastic, inelastic, fracture, and damage theories
Zdeněk P. Bažant,Luigi Cedolin +1 more
TL;DR: Buckling of elastic columns by equilibrium analysis by as mentioned in this paper, and buckling elastic columns and elastic frames by equilibrium analyzes dynamic analysis and general concept of stability energy analysis of discrete or discretized elastic systems Energy analysis of continuous elastic structures and approximate methods Thin-wall elastic beams Elastic plates and shells Elastoplastic buckling Creep buckling Stability of inelastic structures and path bifurcation Stability of massive three-dimensional bodies Fracture as a stability problem Damage as a stabilisation problem
Book
Principles of structural stability
TL;DR: In this paper, Nongyroscopic Conservative Systems, Dissipative Systems, Circulatory Systems, 6 Instationary Systems, and Dissipation Systems are described. But none of them are discussed in detail.
MonographDOI
Stability of Structures: Elastic, Inelastic, Fracture and Damage Theories
Zdeněk P. Bažant,Luigi Cedolin +1 more
TL;DR: Buckling of elastic columns by equilibrium analysis by as mentioned in this paper, and buckling elastic columns and elastic frames by equilibrium analyzes dynamic analysis and general concept of stability energy analysis of discrete or discretized elastic systems Energy analysis of continuous elastic structures and approximate methods Thin-wall elastic beams Elastic plates and shells Elastoplastic buckling Creep buckling Stability of inelastic structures and path bifurcation Stability of massive three-dimensional bodies Fracture as a stability problem Damage as a stabilisation problem