| openaire: EC/H2020/745770/EU//SANDFECHA discrete-to-continuum transformation to model 2-D discrete lattices as energetically equivalent 1-D continuum beams is developed. The study is initiated in a classical setting but results in a non-classical two-scale micropolar beam model via a novel link within a unit cell between the second-order macrorotation-gradient and the micropolar antisymmetric shear deformation. The shear deformable micropolar beam is reduced to a couple-stress and two classical lattice beam models by successive approximations. The stiffness parameters for all models are given by the micropolar constitutive matrix. The four models are compared by studying stretching- and bending-dominated lattice core sandwich beams under ...
A 2-D micropolar equivalent single-layer (ESL), first-order shear deformation (FSDT) plate model for...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
The description of the mechanical behaviour of brick/block masonry through equivalent continua is pr...
| openaire: EC/H2020/745770/EU//SANDFECHA discrete-to-continuum transformation to model 2-D discrete...
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 ...
A micropolar Timoshenko beam formulation is developed and used to model web-core sandwich beams. The...
Sandwich panel strips with prismatic cores are modelled using the modified couple stress theory and ...
A geometrically nonlinear model for periodic sandwich structures based on the modified couple stress...
| openaire: EC/H2020/745770/EU//SANDFECHA displacement-based, geometrically nonlinear finite element...
Soft lattice structures and beam-metamaterials made of hyperelastic, rubbery materials undergo large...
Advances in additive manufacturing across scales have enabled the creation of random, periodic, or h...
In order to model the effect of arbitrary boundary conditions on plane linear elastic sandwich beams...
A 2-D micropolar equivalent single-layer (ESL), first-order shear deformation (FSDT) plate model for...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
The description of the mechanical behaviour of brick/block masonry through equivalent continua is pr...
| openaire: EC/H2020/745770/EU//SANDFECHA discrete-to-continuum transformation to model 2-D discrete...
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 ...
A micropolar Timoshenko beam formulation is developed and used to model web-core sandwich beams. The...
Sandwich panel strips with prismatic cores are modelled using the modified couple stress theory and ...
A geometrically nonlinear model for periodic sandwich structures based on the modified couple stress...
| openaire: EC/H2020/745770/EU//SANDFECHA displacement-based, geometrically nonlinear finite element...
Soft lattice structures and beam-metamaterials made of hyperelastic, rubbery materials undergo large...
Advances in additive manufacturing across scales have enabled the creation of random, periodic, or h...
In order to model the effect of arbitrary boundary conditions on plane linear elastic sandwich beams...
A 2-D micropolar equivalent single-layer (ESL), first-order shear deformation (FSDT) plate model for...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
The description of the mechanical behaviour of brick/block masonry through equivalent continua is pr...