[HTML][HTML] Optimizing mechanical properties of magnesium alloys by philosophy of thermo-kinetic synergy: Review and outlook
T Wang, F Liu - Journal of Magnesium and Alloys, 2022 - Elsevier
Although several strategies (including grain refinement, texture adjustment, precipitation
hardening, etc.) have been verified to effectively improve the mechanical properties of …
hardening, etc.) have been verified to effectively improve the mechanical properties of …
Sliding ferroelectricity in 2D van der Waals materials: Related physics and future opportunities
Near the 100th anniversary of the discovery of ferroelectricity, so-called sliding
ferroelectricity has been proposed and confirmed recently in a series of experiments that …
ferroelectricity has been proposed and confirmed recently in a series of experiments that …
Transition of dominant deformation mode in bulk polycrystalline pure Mg by ultra-grain refinement down to sub-micrometer
Magnesium (Mg) and its alloys usually show relatively low strength and poor ductility at
room temperature due to their anisotropic hexagonal close-packed (HCP) crystal structure …
room temperature due to their anisotropic hexagonal close-packed (HCP) crystal structure …
An overview of modeling the stacking faults in lightweight and high-entropy alloys: Theory and application
Z Pei - Materials Science and Engineering: A, 2018 - Elsevier
Modeling stacking faults in lightweight and medium-to high-entropy alloys is an exciting and
fast develo** field. Stacking faults and associated defects play a key role in understanding …
fast develo** field. Stacking faults and associated defects play a key role in understanding …
Rejuvenation of plasticity via deformation graining in magnesium
Magnesium, the lightest structural metal, usually exhibits limited ambient plasticity when
compressed along its crystallographic c-axis (the “hard” orientation of magnesium). Here we …
compressed along its crystallographic c-axis (the “hard” orientation of magnesium). Here we …
An integrated crystal plasticity–phase field model for spatially resolved twin nucleation, propagation, and growth in hexagonal materials
Typical hexagonal engineering materials, such as magnesium and titanium, deform
extensively through shear strains and crystallographic re-orientations associated with the …
extensively through shear strains and crystallographic re-orientations associated with the …
Twinning-induced plasticity with multiple twinning modes and disclinations in Mg alloys
Twinning-induced plasticity plays a critical role in determining the deformation behaviors of
hexagonal close-packed metals (eg, Mg and Ti), due to the lack of five independent slip …
hexagonal close-packed metals (eg, Mg and Ti), due to the lack of five independent slip …
Direct observation of dual-step twinning nucleation in hexagonal close-packed crystals
Abstract Design and processing of advanced lightweight structural alloys based on
magnesium and titanium rely critically on a control over twinning that remains elusive to date …
magnesium and titanium rely critically on a control over twinning that remains elusive to date …
[HTML][HTML] On the interaction of precipitates and tensile twins in magnesium alloys
Although magnesium alloys deform extensively through shear strains and crystallographic
re-orientations associated with the growth of twins, little is known about the strengthening …
re-orientations associated with the growth of twins, little is known about the strengthening …
Strategy for managing both high strength and large ductility in structural materials–sequential nucleation of different deformation modes based on a concept of plaston
Based on recent findings in ultrafine grained metals, we proposed a strategy for overcoming
the strength-ductility trade-off in structural metallic materials. Sequential nucleation of …
the strength-ductility trade-off in structural metallic materials. Sequential nucleation of …