[HTML][HTML] Microstructures, mechanical properties, corrosion, and biocompatibility of extruded Mg-Zr-Sr-Ho alloys for biodegradable implant applications
In this study, the microstructures, mechanical properties, corrosion behaviors, and
biocompatibility of extruded magnesium-zirconium-strontium-holmium (Mg-Zr-Sr-Ho) alloys …
biocompatibility of extruded magnesium-zirconium-strontium-holmium (Mg-Zr-Sr-Ho) alloys …
CoFeNiTix and CrFeNiTix high entropy alloy thin films microstructure formation
High entropy alloys (HEA) composition-structure relationships are crucial for guiding their
design and applications. Here, we use a combined experimental and molecular dynamics …
design and applications. Here, we use a combined experimental and molecular dynamics …
Cross-interface growth mechanism of nanotwins in extremely high stacking-fault energy ceramic layer
Twins have been proven to greatly enhance the hardness, toughness, thermal stability, and
wear resistance of materials. However, the formation of twins in transition nitride ceramics is …
wear resistance of materials. However, the formation of twins in transition nitride ceramics is …
Role of stacking fault energy in confined layer slip in nanolaminated Cu
Metallic nanolaminates exhibit superior strength compared to their coarsely laminated
counterparts. For layer thicknesses in the range of a few to tens of nanometers, the strength …
counterparts. For layer thicknesses in the range of a few to tens of nanometers, the strength …
Evaluating sputter deposited metal coatings on 3D printed polymer micro-truss structures
As the capabilities of additive manufacturing (AM) further advance, researchers can design
materials and structures without traditional constraints on manufacturability, such as …
materials and structures without traditional constraints on manufacturability, such as …
Hierarchical nanotwins in single-crystal-like nickel with high strength and corrosion resistance produced via a hybrid technique
High-density growth nanotwins enable high-strength and good ductility in metallic materials.
However, twinning propensity is greatly reduced in metals with high stacking fault energy …
However, twinning propensity is greatly reduced in metals with high stacking fault energy …
Distribution of nanodomains in heterogeneous Ni-superalloys: Effect on microstructure and mechanical deformation
In this work, four distinct heterogeneous nanostructured Inconel 725 films synthesized via
magnetron sputtering, feature an extensive array of nanodomains including abnormally …
magnetron sputtering, feature an extensive array of nanodomains including abnormally …
Texture-directed twin formation propensity in Al with high stacking fault energy
Twin boundaries can enhance the strength and preserve the ductility of a variety of metallic
materials with face centered cubic structures. However, twin boundaries are rare in …
materials with face centered cubic structures. However, twin boundaries are rare in …
High strength, deformable nanotwinned Al–Co alloys
Aluminum (Al) alloys have been widely used in the transportation industry. However, most
high-strength Al alloys to date have limited mechanical strength, on the order of a few …
high-strength Al alloys to date have limited mechanical strength, on the order of a few …
Formation of high-density stacking faults in ceramic films induced by Ti transition layer
Stacking faults and twins are extremely difficult to form in ceramic materials. At the same
time, previous studies often used the metal transition layer to improve the film-substrate …
time, previous studies often used the metal transition layer to improve the film-substrate …