A micropolar Timoshenko beam formulation is developed and used to model web-core sandwich beams. The beam theory is derived by a vector approach and the general solution to the governing sixth-order equations is given. A nodally-exact micropolar Timoshenko beam finite element is derived using the solution. Bending and shear stiffness coefficients for a web-core sandwich beam are determined through unit cell analysis, where the split of the shear forces into symmetric and antisymmetric parts plays a pivotal role. Static bending of web-core beams is studied using the micropolar model as well as modified couple-stress and classical Timoshenko beam models. The micropolar 1-D results are in best agreement with 2-D web-core beam frame results. Th...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A two-dimensional mechanical model is developed to predict the global and local buckling of a sandwi...
Constitutive equations are derived for a 1-D micropolar Timoshenko beam made of a web-core lattice m...
| openaire: EC/H2020/745770/EU//SANDFECHA geometrically nonlinear finite element model is developed ...
| openaire: EC/H2020/745770/EU//SANDFECHA discrete-to-continuum transformation to model 2-D discrete...
A geometrically nonlinear model for periodic sandwich structures based on the modified couple stress...
Sandwich panel strips with prismatic cores are modelled using the modified couple stress theory and ...
A 2-D micropolar equivalent single-layer (ESL), first-order shear deformation (FSDT) plate model for...
In this study, we develop an exact microstructure-dependent Timoshenko beam finite element. First, a...
Three generalizations of the Timoshenko beam model according to the linear theory of micropolar elas...
In order to model the effect of arbitrary boundary conditions on plane linear elastic sandwich beams...
A new refined theory for laminated-composite and sandwich beams that contains the kinematics of the ...
This paper is concerned with the bending problem of micro- and nanobeams based on the Eringen nonloc...
Three generalizations of the Timoshenko beam model according to the linear theory of micropolar elas...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A two-dimensional mechanical model is developed to predict the global and local buckling of a sandwi...
Constitutive equations are derived for a 1-D micropolar Timoshenko beam made of a web-core lattice m...
| openaire: EC/H2020/745770/EU//SANDFECHA geometrically nonlinear finite element model is developed ...
| openaire: EC/H2020/745770/EU//SANDFECHA discrete-to-continuum transformation to model 2-D discrete...
A geometrically nonlinear model for periodic sandwich structures based on the modified couple stress...
Sandwich panel strips with prismatic cores are modelled using the modified couple stress theory and ...
A 2-D micropolar equivalent single-layer (ESL), first-order shear deformation (FSDT) plate model for...
In this study, we develop an exact microstructure-dependent Timoshenko beam finite element. First, a...
Three generalizations of the Timoshenko beam model according to the linear theory of micropolar elas...
In order to model the effect of arbitrary boundary conditions on plane linear elastic sandwich beams...
A new refined theory for laminated-composite and sandwich beams that contains the kinematics of the ...
This paper is concerned with the bending problem of micro- and nanobeams based on the Eringen nonloc...
Three generalizations of the Timoshenko beam model according to the linear theory of micropolar elas...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A new super convergent sandwich beam finite element formulation is presented in this article. This e...
A two-dimensional mechanical model is developed to predict the global and local buckling of a sandwi...