In the present paper, a two-dimensional solid consisting of a linear elastic isotropic material, for which the deformation energy depends on the second gradient of the displacement, is considered. The strain energy is demonstrated to depend on 6 constitutive parameters: the 2 Lamé constants (λ and μ) and 4 more parameters (instead of 5 as it is in the 3D-case). Analytical solutions for classical problems such as heavy sheet, bending and flexure are provided. The idea is very simple: The solutions of the corresponding problem of first gradient classical case are imposed, and the corresponding forces, double forces and wedge forces are found. On the basis of such solutions, a method is outlined, which is able to identify the six constitutive ...
Abstract: The behavior of most materials is influenced by inhomogeneously distributed microscale pro...
In the present contribution the concept of isogeometric analysis is extended towards the numerical s...
International audienceA stress gradient continuum theory is presented that fundamentally differs fro...
In the present paper, a two-dimensional solid consisting of a linear elastic isotropic material, for...
A two-dimensional solid consisting of a linear elastic isotropic material is considered in this pape...
In the spirit of Germain the most general objective stored elastic energy for a second gradient mate...
International audienceWe consider in this paper analytical solutions for some remarkable cases and f...
A second strain gradient elasticity theory is proposed based on first and second gradients of the st...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
The aim of the paper is to formulate the two-dimensional governing equations in the theory of elasti...
AbstractA second strain gradient elasticity theory is proposed based on first and second gradients o...
International audienceIn the present paper, the simplest model of strain-gradient elasticity will be...
We present a compact, linearized theory for the quasi-static deformation of elastic materials whose ...
A linear elastic second gradient orthotropic two-dimensional solid that is invariant under (Formula ...
Second-gradient theories represent a frequently used subset of theories of continua with microstruct...
Abstract: The behavior of most materials is influenced by inhomogeneously distributed microscale pro...
In the present contribution the concept of isogeometric analysis is extended towards the numerical s...
International audienceA stress gradient continuum theory is presented that fundamentally differs fro...
In the present paper, a two-dimensional solid consisting of a linear elastic isotropic material, for...
A two-dimensional solid consisting of a linear elastic isotropic material is considered in this pape...
In the spirit of Germain the most general objective stored elastic energy for a second gradient mate...
International audienceWe consider in this paper analytical solutions for some remarkable cases and f...
A second strain gradient elasticity theory is proposed based on first and second gradients of the st...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
The aim of the paper is to formulate the two-dimensional governing equations in the theory of elasti...
AbstractA second strain gradient elasticity theory is proposed based on first and second gradients o...
International audienceIn the present paper, the simplest model of strain-gradient elasticity will be...
We present a compact, linearized theory for the quasi-static deformation of elastic materials whose ...
A linear elastic second gradient orthotropic two-dimensional solid that is invariant under (Formula ...
Second-gradient theories represent a frequently used subset of theories of continua with microstruct...
Abstract: The behavior of most materials is influenced by inhomogeneously distributed microscale pro...
In the present contribution the concept of isogeometric analysis is extended towards the numerical s...
International audienceA stress gradient continuum theory is presented that fundamentally differs fro...