Abstract-Certain classes of problems in optimal structural design lead naturally to the introduction of periodic microstructured media as the basis material for the construction of a mechanical element. The unit cell size of these microstructures cannot be arbitrarily small, as suggested by the pertaining optimization analyses up to date, and has to be related to the structure’s overall dimensions. One physically important mechanism that provides such microstructure size limitations is elastic buckling. An analytically tractable model of an infinite periodic rectangular planar frame with axially compressed beams is used to study the optimal buckling loads. For any given design, one can find a critical stress above which buckling instability...
AbstractThis paper focuses on the structural design of the microscopic architecture of a lattice mat...
We consider an infinite continuous elastic beam that interacts with linearly elastic foundation and ...
AbstractThe authors developed the finite element method (FEM) for micropolar elastic solids and appl...
As aerospace designers strive to build smaller systems, it is important that they understand scaling...
AbstractThis paper deals with optimal shapes against buckling of an elastic nonlocal small-scale Pfl...
This paper focuses on size effects in periodic mechanical metamaterials driven by reversible pattern...
International audienceMetamaterials are composed of structural elements and derive their properties ...
This paper suggests an optimization-based design methodology for improving the strength and the over...
This paper suggests an optimization-based design methodology for improving the strength and overall ...
A critical aspect in the design of composite and microstructured materials involves the prediction o...
A method is presented for evaluating the axial critical loads and deformed shapes of a Vierendeel pe...
AbstractBased on a microstructured beam-grid model, closed form solutions for Eringen’s length scale...
Based on a microstructured beam-grid model, closed form solutions for Eringen's length scale coeffic...
In this paper, we analyze elastic buckling of micro- and nano-rods based on Eringen's nonlocal elast...
We study optimal layout of piece-wise periodic structures of linearly elastic materials. The effecti...
AbstractThis paper focuses on the structural design of the microscopic architecture of a lattice mat...
We consider an infinite continuous elastic beam that interacts with linearly elastic foundation and ...
AbstractThe authors developed the finite element method (FEM) for micropolar elastic solids and appl...
As aerospace designers strive to build smaller systems, it is important that they understand scaling...
AbstractThis paper deals with optimal shapes against buckling of an elastic nonlocal small-scale Pfl...
This paper focuses on size effects in periodic mechanical metamaterials driven by reversible pattern...
International audienceMetamaterials are composed of structural elements and derive their properties ...
This paper suggests an optimization-based design methodology for improving the strength and the over...
This paper suggests an optimization-based design methodology for improving the strength and overall ...
A critical aspect in the design of composite and microstructured materials involves the prediction o...
A method is presented for evaluating the axial critical loads and deformed shapes of a Vierendeel pe...
AbstractBased on a microstructured beam-grid model, closed form solutions for Eringen’s length scale...
Based on a microstructured beam-grid model, closed form solutions for Eringen's length scale coeffic...
In this paper, we analyze elastic buckling of micro- and nano-rods based on Eringen's nonlocal elast...
We study optimal layout of piece-wise periodic structures of linearly elastic materials. The effecti...
AbstractThis paper focuses on the structural design of the microscopic architecture of a lattice mat...
We consider an infinite continuous elastic beam that interacts with linearly elastic foundation and ...
AbstractThe authors developed the finite element method (FEM) for micropolar elastic solids and appl...