Electrodeposition of Ni-Fe alloys, composites, and nano coatings–A review
Electrodeposition is considered as an easy and cost effective technique for preparation of
alloy coating. A wide variety of properties for coatings can be achieved by selecting different …
alloy coating. A wide variety of properties for coatings can be achieved by selecting different …
Atom probe tomography of electronic materials
The state of application of atom probe tomography to electronic materials is assessed. The
benefits and challenges of the technique are discussed with regard to its impact on this field …
benefits and challenges of the technique are discussed with regard to its impact on this field …
The effect of solid solution W additions on the mechanical properties of nanocrystalline Ni
Although pure metals with grain sizes below about 10 nm are very difficult to prepare,
alloying enables the realization of finer grain sizes, often down to the amorphous limit. In this …
alloying enables the realization of finer grain sizes, often down to the amorphous limit. In this …
Stability of binary nanocrystalline alloys against grain growth and phase separation
Grain boundary segregation has been established through both simulation and experiments
as a successful approach to stabilize nanocrystalline materials against grain growth …
as a successful approach to stabilize nanocrystalline materials against grain growth …
Stability criteria for nanocrystalline alloys
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical
enabling strategy for the processing and usage of bulk nanocrystalline parts. Alloying …
enabling strategy for the processing and usage of bulk nanocrystalline parts. Alloying …
Mitigating grain growth in binary nanocrystalline alloys through solute selection based on thermodynamic stability maps
Mitigating grain growth at high temperatures in binary nanocrystalline alloys is important for
processing nanocrystalline alloy systems. The objective of this research is to develop a …
processing nanocrystalline alloy systems. The objective of this research is to develop a …
Effect of grain size on the tribological behavior of nanocrystalline nickel
Nanocrystalline nickel (8–28nm) deposits were produced by direct and pulse current
electrodeposition. The microhardness and microstrains in the deposits were estimated …
electrodeposition. The microhardness and microstrains in the deposits were estimated …
On the extrinsic Hall-Petch to inverse Hall-Petch transition in nanocrystalline Ni-Co electrodeposits
Abstract The Hall-Petch to inverse Hall-Petch (HP-IHP) transition of an electrodeposited
nanocrystalline Ni-32at% Co alloy was examined by annealing the as-plated alloy to obtain …
nanocrystalline Ni-32at% Co alloy was examined by annealing the as-plated alloy to obtain …
Hardness-thermal stability synergy in nanograined Ni and Ni alloys: Superposition of nanotwin and low-energy columnar boundary
Refining grains into nanoscale can significantly strengthen and harden metallic materials;
however, nanograined metals generally exhibit low thermal stability, hindering their practical …
however, nanograined metals generally exhibit low thermal stability, hindering their practical …
Thermal stability of electrodeposited nanocrystalline Co-1.1 at.% P
Nanocrystalline Co-1.1 at.% P prepared by pulsed electrodeposition was investigated with
respect to thermal stability. Several characterization methods such as differential scanning …
respect to thermal stability. Several characterization methods such as differential scanning …