Add to ORKGDuctility, defined as the strain at the onset of necking, has been characterized in thin Al films using an on-chip, internal stress actuated, microtensile testing setup. In the smallest specimens, the ductility is equal to 0.08 and 0.27 for 200 and 375 nm thick films, respectively, while the average strain-hardening exponents are, respectively, equal to 0.11 and 0.23. In addition to the thickness effect, ductility decreases with increasing specimen size due to imperfection sensitivity, involving a size-dependent statistical behaviour.(CeRMiN),(iMMC),ICTEA
thermal stress in single crystal thin films on a rigid substrate are used to study size effects. The...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...
Ductility, defined as the strain at the onset of necking, has been characterized in thin Al films us...
Depending on the loading conditions, geometry and material characteristics, the ductility of thin me...
The mechanical response of thin metallic films is simulated using a two-dimensional strain gradient ...
The authors have compared the incipient plastic behaviors of Al and Al-Mg thin films during indentat...
Abstract Mechanical properties of an aluminium thin film were measured by microcompression and inden...
This article describes the current level of understanding of dislocation plasticity in thin films a...
In the present research, results are presented regarding the anelasticity of 99.999% pure aluminum t...
The control of the ductility of thin metallic films is a major issue in a variety of technologies in...
According to experimental findings there are types of loading for which it is more difficult to plas...
Materials consisting of grains or crystallites with sizes below a hundred nanometers have exhibited ...
A discrete dislocation plasticity analysis of plastic deformation in metal thin films caused by ther...
Industrial application of materials at the micrometer and submicrometer scales requires accurate mec...
thermal stress in single crystal thin films on a rigid substrate are used to study size effects. The...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...
Ductility, defined as the strain at the onset of necking, has been characterized in thin Al films us...
Depending on the loading conditions, geometry and material characteristics, the ductility of thin me...
The mechanical response of thin metallic films is simulated using a two-dimensional strain gradient ...
The authors have compared the incipient plastic behaviors of Al and Al-Mg thin films during indentat...
Abstract Mechanical properties of an aluminium thin film were measured by microcompression and inden...
This article describes the current level of understanding of dislocation plasticity in thin films a...
In the present research, results are presented regarding the anelasticity of 99.999% pure aluminum t...
The control of the ductility of thin metallic films is a major issue in a variety of technologies in...
According to experimental findings there are types of loading for which it is more difficult to plas...
Materials consisting of grains or crystallites with sizes below a hundred nanometers have exhibited ...
A discrete dislocation plasticity analysis of plastic deformation in metal thin films caused by ther...
Industrial application of materials at the micrometer and submicrometer scales requires accurate mec...
thermal stress in single crystal thin films on a rigid substrate are used to study size effects. The...
The mechanical properties measurement of materials with submicron dimensions is extremely challengin...
Stress development and relaxation in polycrystalline thin films perfectly bonded to a stiff substrat...