Add to ORKGThis article reviews recent studies on the mechanical properties of cylindrical metallic nanopillars subjected to uniaxial deformation. Remarkable strengths and very different mechanical properties arise due to the activation of unique deformation mechanisms operating in these nanoscale volumes. Effects of both size and microstructure are discussed
We study the mechanical properties of nanoglass (NG) nanopillars with diameters ranging from 4.5 to ...
“Smaller is stronger,” sub-, micro-, and nanomaterials exhibit high strength, ultralarge elasticity ...
The nanoscale plastic deformation of yttria-stabilized tetragonal zirconia (YSTZ) is highly dependen...
This article reviews recent studies on the mechanical Properties of cylindrical metallic nanopillars...
This article reviews recent studies on the mechanical properties of cylindrical metallic nanopillars...
Uniaxial compression of micro- and nanopillars is frequently used to elicit plastic size effects in ...
Uniaxial compression of micro- and nanopillars is frequently used to elicit plastic size effects in ...
We report the deformation behavior of single crystalline molybdenum nanopillars in uniaxial compress...
Mechanical properties and morphology of cylindrical indium nanopillars, fabricated by electron beam ...
The emergence of a substantial body of literature focusing on uniaxial compression experiments of mi...
We report the synthesis, mechanical properties, and deformation mechanisms of polycrystalline, plati...
This article reviews in situ mechanical testing of crystalline nanowires in scanning and transmissio...
International audienceThis chapter focuses on the nanoindentation of nanoparticles. It presents the ...
International audienceThe interpretation of experimental results in terms of mechanical properties g...
This study investigated the high-strain rate deformation of bicrystal Cu nanopillars, using atomisti...
We study the mechanical properties of nanoglass (NG) nanopillars with diameters ranging from 4.5 to ...
“Smaller is stronger,” sub-, micro-, and nanomaterials exhibit high strength, ultralarge elasticity ...
The nanoscale plastic deformation of yttria-stabilized tetragonal zirconia (YSTZ) is highly dependen...
This article reviews recent studies on the mechanical Properties of cylindrical metallic nanopillars...
This article reviews recent studies on the mechanical properties of cylindrical metallic nanopillars...
Uniaxial compression of micro- and nanopillars is frequently used to elicit plastic size effects in ...
Uniaxial compression of micro- and nanopillars is frequently used to elicit plastic size effects in ...
We report the deformation behavior of single crystalline molybdenum nanopillars in uniaxial compress...
Mechanical properties and morphology of cylindrical indium nanopillars, fabricated by electron beam ...
The emergence of a substantial body of literature focusing on uniaxial compression experiments of mi...
We report the synthesis, mechanical properties, and deformation mechanisms of polycrystalline, plati...
This article reviews in situ mechanical testing of crystalline nanowires in scanning and transmissio...
International audienceThis chapter focuses on the nanoindentation of nanoparticles. It presents the ...
International audienceThe interpretation of experimental results in terms of mechanical properties g...
This study investigated the high-strain rate deformation of bicrystal Cu nanopillars, using atomisti...
We study the mechanical properties of nanoglass (NG) nanopillars with diameters ranging from 4.5 to ...
“Smaller is stronger,” sub-, micro-, and nanomaterials exhibit high strength, ultralarge elasticity ...
The nanoscale plastic deformation of yttria-stabilized tetragonal zirconia (YSTZ) is highly dependen...