Add to ORKGThe high precision offered by small-scale mechanical testing has allowed the relationships between mechanical behavior and specific microstructural features to be determined to an unprecedented degree. However, of most interest to scientists and engineers is often the behavior of materials under service conditions in an extreme environment, such as high/low temperatures, high strain rates, hydrogen atmosphere, or radiation. In this article, we detail progress made to adapt nanomechanical testing systems and techniques to observe materials behavior in situ in extreme environments
The mechanical response of modern alloys results from a complex interplay between existing microstru...
The arctic is an appealing new ventures area for the oil and gas industry. However the climate is ex...
The mechanical properties of materials have been considered as one of the most important material pr...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
AbstractIn-Situ Micromechanical Testing in Extreme EnvironmentsByAmanda Sofia LupinacciDoctor of Phi...
Mechanical and electromechanical properties, deformation and fracture mechanisms, and environmental ...
Micro- and nanomechanical testing has seen a rapid development over the last decade with miniaturize...
An ever increasing demand for energy is forcing the oil industry to push technology forward, as new ...
Nanoindentation is an ideal technique to study local mechanical properties of a wide range of materi...
An ever increasing demand for energy is forcing the oil industry to push technology forward, as new ...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
Nanotechnologies have already attracted massive interest in multiple fields of science and industry....
In material science, the measurement of mechanical material properties as a function of temperature ...
The mechanical response of modern alloys results from a complex interplay between existing microstru...
The arctic is an appealing new ventures area for the oil and gas industry. However the climate is ex...
The mechanical properties of materials have been considered as one of the most important material pr...
The fi eld of in situ nanomechanics is greatly benefi ting from microelectromechanical systems (MEMS...
AbstractIn-Situ Micromechanical Testing in Extreme EnvironmentsByAmanda Sofia LupinacciDoctor of Phi...
Mechanical and electromechanical properties, deformation and fracture mechanisms, and environmental ...
Micro- and nanomechanical testing has seen a rapid development over the last decade with miniaturize...
An ever increasing demand for energy is forcing the oil industry to push technology forward, as new ...
Nanoindentation is an ideal technique to study local mechanical properties of a wide range of materi...
An ever increasing demand for energy is forcing the oil industry to push technology forward, as new ...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
Small-scale mechanical testing of materials has gained prominence in the last decade or so due to th...
We have developed and tested the world’s smallest material testing system for the in situ mechanical...
Nanotechnologies have already attracted massive interest in multiple fields of science and industry....
In material science, the measurement of mechanical material properties as a function of temperature ...
The mechanical response of modern alloys results from a complex interplay between existing microstru...
The arctic is an appealing new ventures area for the oil and gas industry. However the climate is ex...
The mechanical properties of materials have been considered as one of the most important material pr...