Add to ORKGThe mechanical damage accumulation occurring in an array of axially loaded nanopillars is studied within the stochastic approach. To each nanopillar, an initial strength--threshold is assigned which is drawn from the Weibull probability distribution. Under the influence of load exceeding the strength-threshold the pillar height is reduced. Then the reduced pillar gets new higher strength-threshold and its load is transferred to other working pillars. We analyse slip loads causing the system height reductions and avalanches of the pillar height reductions
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
This study presents some recent results on damage evolution in quasi-brittle materials including sto...
In this paper, we study nanoindentation in Cu64Zr36 metallic glass (MG) nanopillars with different a...
Abstract. The mechanical damage accumulation occurring in an array of axially loaded nanopillars is ...
We apply the Fibre Bundle Model to study critical loads and catastrophic avalanches in arrays of axi...
A computational model for the damage analysis in the axially loaded nanopillar arrays was developed ...
We study the breakdown of the nanopillar arrays subjected to axial loading. The pillar-strength-thre...
We study mechanical-damage avalanches occurring in axially loaded nanopillars located in the nodes o...
In the framework of the Fibre Bundle Model we explore the effect of mixed-mode load transfer in two-...
Experimental evidence has illustrated that micropillar deformation is highly stochastic, as the stre...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
Micron-sized aluminum pillars, fabricated by focused-ion beam milling, were subjected to compression...
We have applied a novel approach to the investigation of deformation of nanoporous metals at the nan...
The paper analyzes a stochastic stability problem of a multi-nanobeam system subjected to compressiv...
Molecular dynamics simulations are performed to investigate the impact of a coherent Σ3 (111) twin b...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
This study presents some recent results on damage evolution in quasi-brittle materials including sto...
In this paper, we study nanoindentation in Cu64Zr36 metallic glass (MG) nanopillars with different a...
Abstract. The mechanical damage accumulation occurring in an array of axially loaded nanopillars is ...
We apply the Fibre Bundle Model to study critical loads and catastrophic avalanches in arrays of axi...
A computational model for the damage analysis in the axially loaded nanopillar arrays was developed ...
We study the breakdown of the nanopillar arrays subjected to axial loading. The pillar-strength-thre...
We study mechanical-damage avalanches occurring in axially loaded nanopillars located in the nodes o...
In the framework of the Fibre Bundle Model we explore the effect of mixed-mode load transfer in two-...
Experimental evidence has illustrated that micropillar deformation is highly stochastic, as the stre...
Mechanical deformation of nanopillars displays features that are distinctly different from the bulk ...
Micron-sized aluminum pillars, fabricated by focused-ion beam milling, were subjected to compression...
We have applied a novel approach to the investigation of deformation of nanoporous metals at the nan...
The paper analyzes a stochastic stability problem of a multi-nanobeam system subjected to compressiv...
Molecular dynamics simulations are performed to investigate the impact of a coherent Σ3 (111) twin b...
The mechanical behavior of bicrystalline aluminum nano-pillars under uniaxial compression reveals si...
This study presents some recent results on damage evolution in quasi-brittle materials including sto...
In this paper, we study nanoindentation in Cu64Zr36 metallic glass (MG) nanopillars with different a...