Strain-rate sensitivity (SRS) measurements using transient small-scale techniques are becoming increasingly popular for investigating nanostructured films and microcomponents since they can provide fundamental insights into the plastic deformation mechanisms within small volumes of material. Previously, researchers have typically used either nanoindentation or microcompression strain-rate jump tests on a variety of nanostructured materials and compared the resultant values with bulk compression data as a reference. However, no systematic comparison of the different transient micromechanical techniques has been performed on the same material to establish their relative merits or the consistency of their results. In this study, the SRS of nan...
Nanoindentation experiments are widely used for assessing the local mechanical properties of materia...
The strain rate sensitivity (SRS) and dislocation activation volume are two inter-related material p...
Microstructural analysis and mechanical testing have been performed on two types of nanocrystalline ...
<div><p>Nanocrystalline and ultrafine-grained materials show enhanced strain rate sensitivity (SRS) ...
Nanocrystalline metals exhibit strongly time-dependent plastic deformation. This results in a high d...
A nanoindentation strain-rate jump technique has been developed for determining the local strain-rat...
Traditionally, time-dependent properties of nanocrystalline metals have been measured on bulk sample...
For materials which exhibit a power-law relationship between stress and strain rate, it is theoretic...
A comparison of microcompression and microtensile methods to study mechanical properties of electrod...
Over the past two decades, nanoindentation has been the most versatile method for mechanical testing...
A comparison of microcompression and microtensile methods to study mechanical properties of electrod...
We present the results of repeated relaxation tests using nanoindentation to derive the activation v...
We present the results of repeated relaxation tests using nanoindentation to derive the activation v...
The strain rate sensitivity (SRS) and dislocation activation volume are two inter-related material p...
Nanoindentation experiments are widely used for assessing the local mechanical properties of materia...
Nanoindentation experiments are widely used for assessing the local mechanical properties of materia...
The strain rate sensitivity (SRS) and dislocation activation volume are two inter-related material p...
Microstructural analysis and mechanical testing have been performed on two types of nanocrystalline ...
<div><p>Nanocrystalline and ultrafine-grained materials show enhanced strain rate sensitivity (SRS) ...
Nanocrystalline metals exhibit strongly time-dependent plastic deformation. This results in a high d...
A nanoindentation strain-rate jump technique has been developed for determining the local strain-rat...
Traditionally, time-dependent properties of nanocrystalline metals have been measured on bulk sample...
For materials which exhibit a power-law relationship between stress and strain rate, it is theoretic...
A comparison of microcompression and microtensile methods to study mechanical properties of electrod...
Over the past two decades, nanoindentation has been the most versatile method for mechanical testing...
A comparison of microcompression and microtensile methods to study mechanical properties of electrod...
We present the results of repeated relaxation tests using nanoindentation to derive the activation v...
We present the results of repeated relaxation tests using nanoindentation to derive the activation v...
The strain rate sensitivity (SRS) and dislocation activation volume are two inter-related material p...
Nanoindentation experiments are widely used for assessing the local mechanical properties of materia...
Nanoindentation experiments are widely used for assessing the local mechanical properties of materia...
The strain rate sensitivity (SRS) and dislocation activation volume are two inter-related material p...
Microstructural analysis and mechanical testing have been performed on two types of nanocrystalline ...
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