Add to ORKGA reduction in the grain size of a metal offers a means for enhancing the strength by retarding dislocation activity, and at the same time enhancing ductility by processes involving grain boundaries. This overview critically examines various issues relating to strengthening and ductility in nanometals by considering both limitations to strengthening and processes contributing to weakening. It highlights the continuing interesting areas for further research
Nanocrystalline materials with a grain size of less than or equal to 100 nm are expected to be stron...
The deformation mechanisms occurring in coarse-grained polycrystalline materials are now understood ...
A systematical study of size effects and mechanical behaviors for the nanocrystalline (nc) metals is...
A reduction in the grain size of a metal offers a means for enhancing the strength by retarding disl...
Nanophase metals have grain-size dependent mechanical properties that are significantly different th...
Bulk nanostructured (NS) metals, with structural units falling in the nanometer range, are of intere...
Bulk nanostructured (NS) metals, with structural units falling in the nanometer range, are of intere...
The recent literature is reviewed with respect to the strength-limiting deformation mechanisms in na...
Focusing on nanocrystalline (nc) pure face-centered cubic metals, where systematic experimental data...
Grain refinement is the most universal and effective method of strengthening metallic materials, whi...
Nanocrystalline (NC) materials, defined structurally by having average grain sizes less than 100nm, ...
When grain sizes of crystals are down to nano-scale, the so-called nanocrystalline materials exhibit...
As a result of recent investigations on nanocrystalline (nc) materials, extensive experimental data ...
AbstractThe brittle versus ductile transition for conventional metals is dictated by the competition...
Grain boundaries play an important role in dictating the mechanical and physical properties of nanoc...
Nanocrystalline materials with a grain size of less than or equal to 100 nm are expected to be stron...
The deformation mechanisms occurring in coarse-grained polycrystalline materials are now understood ...
A systematical study of size effects and mechanical behaviors for the nanocrystalline (nc) metals is...
A reduction in the grain size of a metal offers a means for enhancing the strength by retarding disl...
Nanophase metals have grain-size dependent mechanical properties that are significantly different th...
Bulk nanostructured (NS) metals, with structural units falling in the nanometer range, are of intere...
Bulk nanostructured (NS) metals, with structural units falling in the nanometer range, are of intere...
The recent literature is reviewed with respect to the strength-limiting deformation mechanisms in na...
Focusing on nanocrystalline (nc) pure face-centered cubic metals, where systematic experimental data...
Grain refinement is the most universal and effective method of strengthening metallic materials, whi...
Nanocrystalline (NC) materials, defined structurally by having average grain sizes less than 100nm, ...
When grain sizes of crystals are down to nano-scale, the so-called nanocrystalline materials exhibit...
As a result of recent investigations on nanocrystalline (nc) materials, extensive experimental data ...
AbstractThe brittle versus ductile transition for conventional metals is dictated by the competition...
Grain boundaries play an important role in dictating the mechanical and physical properties of nanoc...
Nanocrystalline materials with a grain size of less than or equal to 100 nm are expected to be stron...
The deformation mechanisms occurring in coarse-grained polycrystalline materials are now understood ...
A systematical study of size effects and mechanical behaviors for the nanocrystalline (nc) metals is...