[HTML][HTML] Development of electrodeposited multilayer coatings: A review of fabrication, microstructure, properties and applications
The demand for robust engineering materials demonstrating good tribological performance
under arduous service conditions has forged the development of novel coating materials …
under arduous service conditions has forged the development of novel coating materials …
[HTML][HTML] Machine learning applications on lunar meteorite minerals: From classification to mechanical properties prediction
Amid the scarcity of lunar meteorites and the imperative to preserve their scientific value,
non-destructive testing methods are essential. This translates into the application of …
non-destructive testing methods are essential. This translates into the application of …
Estimation of grain boundary segregation enthalpy and its role in stable nanocrystalline alloy design
Grain boundary segregation provides a method for stabilization of nanocrystalline metals—
an alloying element that will segregate to the boundaries can lower the grain boundary …
an alloying element that will segregate to the boundaries can lower the grain boundary …
Insights into in-situ TiB/dual-phase Ti alloy interface and its high load-bearing capacity
To better understand the strengthening mechanism of in-situ formed TiB reinforcements in
dual-phase Ti6Al4V alloy, the interface characters and properties of α-Ti/β-Ti/TiB system …
dual-phase Ti6Al4V alloy, the interface characters and properties of α-Ti/β-Ti/TiB system …
Three-dimensionally engineered porous silicon electrodes for Li ion batteries
The ultimate goal of Li ion battery design should consist of fully accessible metallic current
collectors, possibly of nanoscale dimensions, intimately in contact with high capacity stable …
collectors, possibly of nanoscale dimensions, intimately in contact with high capacity stable …
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 …
Structural, magnetic, and mechanical properties of electrodeposited cobalt–tungsten alloys: Intrinsic and extrinsic interdependencies
The map** of structural, magnetic, and mechanical properties of Co–W coatings
galvanostatically electrodeposited from a citrate–borate bath is investigated. The intrinsic …
galvanostatically electrodeposited from a citrate–borate bath is investigated. The intrinsic …
Nanostructured β-phase Ti–31.0 Fe–9.0 Sn and sub-μm structured Ti–39.3 Nb–13.3 Zr–10.7 Ta alloys for biomedical applications: Microstructure benefits on the …
Nanostructured Ti–31.0 Fe–9.0 Sn and sub-micrometer structured Ti–39.3 Nb–13.3 Zr–10.7
Ta (wt.%) β-type alloys, exhibiting different microstructures and dissimilar mechanical …
Ta (wt.%) β-type alloys, exhibiting different microstructures and dissimilar mechanical …
A 3D Cu‐naphthalene‐phosphonate metal–organic framework with ultra‐high electrical conductivity
A conductive phosphonate metal–organic framework (MOF),[{Cu (H2O)}(2, 6‐NDPA)
0.5](NDPA= naphthalenediphosphonic acid), which contains a 2D inorganic building unit …
0.5](NDPA= naphthalenediphosphonic acid), which contains a 2D inorganic building unit …
Electrodeposition of magnetic, superhydrophobic, non-stick, two-phase Cu–Ni foam films and their enhanced performance for hydrogen evolution reaction in alkaline …
Two-phase Cu–Ni magnetic metallic foams (MMFs) with tunable composition have been
prepared by electrodeposition taking advantage of hydrogen co-evolution as a source of …
prepared by electrodeposition taking advantage of hydrogen co-evolution as a source of …