Indentation methods are finding increasing use in the study of mechanical properties of bulk and thin-film materials over a wide range of size scales (e.g., [1,2]). With the increasing sophistication of instrumented, depth-sensing indentation equipment and of computational methods to model the defor-mation of materials subjected to indentation, there is growing interest in studying the elastoplasti
AbstractThe structure of interest is a thin, metallic coating of fcc copper, of thickness of a few n...
The instrumented indentation test has been widely used and studied because of the ease it provides f...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
Abstract—Nanoindentation for measuring thin film mechanical properties is probably the most popular ...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
This study explores the difficulties encountered when using conventional nanoindentation techniques ...
We explore the effect of the substrate on mechanical behavior of thin films using a depth-sensing in...
Results from several series of experimental investigations are described, which, it is hoped, will i...
The paper investigates the nanoindentation process with different rates in the Cu (001) of FCC syste...
Nanoindentation has been widely used to measure mechanical properties for instance elastic modulus a...
Thin film adhesion can be measured by means of the nanoindentation technique [1]. In the case of a d...
International audienceCross-Sectional Nanoindentation (CSN) is a recent method for adhesion measurem...
The structure of interest consists of a nanometer thin copper coating, resting on a stiffer substrat...
The structure of interest is a thin, metallic coating of fcc copper, of thickness down to a few nano...
The structure of interest consists of a nanometer thin copper coating, resting on an infinitely stif...
AbstractThe structure of interest is a thin, metallic coating of fcc copper, of thickness of a few n...
The instrumented indentation test has been widely used and studied because of the ease it provides f...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
Abstract—Nanoindentation for measuring thin film mechanical properties is probably the most popular ...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
This study explores the difficulties encountered when using conventional nanoindentation techniques ...
We explore the effect of the substrate on mechanical behavior of thin films using a depth-sensing in...
Results from several series of experimental investigations are described, which, it is hoped, will i...
The paper investigates the nanoindentation process with different rates in the Cu (001) of FCC syste...
Nanoindentation has been widely used to measure mechanical properties for instance elastic modulus a...
Thin film adhesion can be measured by means of the nanoindentation technique [1]. In the case of a d...
International audienceCross-Sectional Nanoindentation (CSN) is a recent method for adhesion measurem...
The structure of interest consists of a nanometer thin copper coating, resting on a stiffer substrat...
The structure of interest is a thin, metallic coating of fcc copper, of thickness down to a few nano...
The structure of interest consists of a nanometer thin copper coating, resting on an infinitely stif...
AbstractThe structure of interest is a thin, metallic coating of fcc copper, of thickness of a few n...
The instrumented indentation test has been widely used and studied because of the ease it provides f...
We investigate the elasto-plastic deformation properties of a 20-nm-thick copper (Cu) thin film. A n...
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