Add to ORKGA geometrically exact dimensionally reduced order model for the nonlinear deformation of thin magnetoelastic shells is presented. The Kirchhoff-Love assumptions for the mechanical fields are generalised to the magnetic variables to derive a consistent two-dimensional theory based on a rigorous variational approach. The general deformation map, as opposed to the mid-surface deformation, is considered as the primary variable resulting in a more accurate description of the nonlinear deformation. The commonly used plane stress assumption is discarded due to the Maxwell stress in the surrounding free-space requiring careful treatment on the upper and lower shell surfaces. The complexity arising from the boundary terms when deriving the Euler-Lag...
summary:The paper deals with the dimensional reduction from 2D to 1D in magnetoelastic interaction...
Buckling of a thin cylindrical sandwich shell composed of elastic isotropic layers with different el...
A comprehensive micromechanical model for the analysis of structurally periodic and fully coupled ma...
We develop a reduced model for hard-magnetic, thin, linear-elastic shells that can be actuated throu...
A nonlinear two-dimensional theory is developed for thin magnetoelastic films capable of large defor...
Abstract: Two new variational principles for nonlinear magnetoelastostatics are derived. Each is bas...
Magnetorheological elastomers (MREs) are a class of magnetoelastic solids whose mechanical propertie...
A simple variational theory for the macroscopic behavior of materials with high anisotropy is derive...
National audienceMagnetorheological elastomers (MREs) are ferromagnetic particle impregnated rubbers...
International audienceA non-linear two-dimensional theory is developed for thin magnetoelastic films...
We study the inverse problem which arises when designing thin magneto-elastic actuators with bespoke...
A nonlinear time-domain extension of the classical linear frequency-domain thin-shell approach is pr...
We develop a reduced-order model for thin plates made of hard magnetorheological elastomers (hard-MR...
The work mathematically simulates magnetoelastic vibrations of thin conductive shells in a non-stati...
This work aims at dimensional reduction of nonlinear material models in an asymptotically accurate m...
summary:The paper deals with the dimensional reduction from 2D to 1D in magnetoelastic interaction...
Buckling of a thin cylindrical sandwich shell composed of elastic isotropic layers with different el...
A comprehensive micromechanical model for the analysis of structurally periodic and fully coupled ma...
We develop a reduced model for hard-magnetic, thin, linear-elastic shells that can be actuated throu...
A nonlinear two-dimensional theory is developed for thin magnetoelastic films capable of large defor...
Abstract: Two new variational principles for nonlinear magnetoelastostatics are derived. Each is bas...
Magnetorheological elastomers (MREs) are a class of magnetoelastic solids whose mechanical propertie...
A simple variational theory for the macroscopic behavior of materials with high anisotropy is derive...
National audienceMagnetorheological elastomers (MREs) are ferromagnetic particle impregnated rubbers...
International audienceA non-linear two-dimensional theory is developed for thin magnetoelastic films...
We study the inverse problem which arises when designing thin magneto-elastic actuators with bespoke...
A nonlinear time-domain extension of the classical linear frequency-domain thin-shell approach is pr...
We develop a reduced-order model for thin plates made of hard magnetorheological elastomers (hard-MR...
The work mathematically simulates magnetoelastic vibrations of thin conductive shells in a non-stati...
This work aims at dimensional reduction of nonlinear material models in an asymptotically accurate m...
summary:The paper deals with the dimensional reduction from 2D to 1D in magnetoelastic interaction...
Buckling of a thin cylindrical sandwich shell composed of elastic isotropic layers with different el...
A comprehensive micromechanical model for the analysis of structurally periodic and fully coupled ma...