Add to ORKGWe have used the Interracial Force Microscope" to perform nanoindentations on Au single- crystal surfaces. We have observed two distinct regimes of plastic deformation which are distinguished by the magnitude of discontinuities in load relaxation. At lower stresses, relaxation occurs in small deviations from elastic behavior, while at the higher stresses they take the form of large load drops often resulting in complete relaxation of the applied load. These major events create a relatively wide plastic zone that subsequently deepens more rapidly than it widens. We discuss these findings in terms of contrasting models of dislocation processes in the two regimes
Understanding plasticity initiation and evolution in nanoindentation tests is a fundamental issue. I...
The load-controlled mode is routinely used in nanoindentation experiments. Yet there are no simulati...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
Nanoindentation of crystalline materials has been thought as a primarily surface-driven technique th...
We develop an approach that combines the power of nonlinear dynamics with the evolution equations fo...
The microstructure origin of the elastic-plastic response of a Cu substrate during nanoindentation i...
We develop an approach that combines the power of nonlinear dynamics with the evolution equations fo...
We investigate the mechanics of nanometer scale indentation into an atomically flat metallic surface...
The microstructure origin of the elastic-plastic response of a Cu substrate during nanoindentation i...
The probed volumes in nanoindentation can be comparable to the characteristic length scales of some ...
In atomistic simulations, nanoindentation is usually studied for ideal substrates. Here we explore t...
Understanding plasticity initiation and evolution in nanoindentation tests is a fundamental issue. I...
The load-controlled mode is routinely used in nanoindentation experiments. Yet there are no simulati...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
We review the recently developed models for load fluctuations in the displacement controlled mode an...
Nanoindentation of crystalline materials has been thought as a primarily surface-driven technique th...
We develop an approach that combines the power of nonlinear dynamics with the evolution equations fo...
The microstructure origin of the elastic-plastic response of a Cu substrate during nanoindentation i...
We develop an approach that combines the power of nonlinear dynamics with the evolution equations fo...
We investigate the mechanics of nanometer scale indentation into an atomically flat metallic surface...
The microstructure origin of the elastic-plastic response of a Cu substrate during nanoindentation i...
The probed volumes in nanoindentation can be comparable to the characteristic length scales of some ...
In atomistic simulations, nanoindentation is usually studied for ideal substrates. Here we explore t...
Understanding plasticity initiation and evolution in nanoindentation tests is a fundamental issue. I...
The load-controlled mode is routinely used in nanoindentation experiments. Yet there are no simulati...
Abstract—This paper describes nanoindentation experiments on thin films of polycrystalline Al of kno...