Dealloyed nanoporous materials for electrochemical energy conversion and storage
Dealloying, which is traditionally originated in the research of alloy corrosion, has recently
been developed as a robust and generic method for fabricating functional 3D nanoporous …
been developed as a robust and generic method for fabricating functional 3D nanoporous …
Liquid metals dealloying as a general approach for the selective extraction of metals and the fabrication of nanoporous metals: A review
X Guo, C Zhang, Q Tian, D Yu - Materials Today Communications, 2021 - Elsevier
Liquid metal dealloying, a method of etching based on different solubilities of each
component of the alloy into the liquid metal, has been extensively developed for …
component of the alloy into the liquid metal, has been extensively developed for …
Mechanical performance of 3D printed interpenetrating phase composites with spinodal topologies
The mechanical response of interpenetrating phase composites (IPCs) with stochastic
spinodal topologies is investigated experimentally and numerically. Model polymeric …
spinodal topologies is investigated experimentally and numerically. Model polymeric …
Nanoarchitected metal/ceramic interpenetrating phase composites
Architected metals and ceramics with nanoscale cellular designs, eg, nanolattices, are
currently subject of extensive investigation. By harnessing extreme material size effects …
currently subject of extensive investigation. By harnessing extreme material size effects …
Mechanical performance of interpenetrating phase composites with multi-sheet lattice structures
Interpenetrating phase composites (IPCs), as a novel type of composite material, offer
advantages such as lightweight, high strength, and superior energy absorption. This study …
advantages such as lightweight, high strength, and superior energy absorption. This study …
Highly strain-rate sensitive and ductile composite materials combining soft with stiff TPMS polymer-based interpenetrating phases
The current work investigates the engineering of strain-rate sensitive and ductile composites
through the combination of stiff, triply-periodic-minimal-surface (TPMS) with soft, rubber-type …
through the combination of stiff, triply-periodic-minimal-surface (TPMS) with soft, rubber-type …
Beating thermal coarsening in nanoporous materials via high‐entropy design
Controlling the feature sizes of 3D bicontinuous nanoporous (3DNP) materials is essential
for their advanced applications in catalysis, sensing, energy systems, etc., requiring high …
for their advanced applications in catalysis, sensing, energy systems, etc., requiring high …
Interpenetrating phases composites Ti6Al4V/Zn as partially degradable biomaterials to improve bone-implant properties
Ti6Al4V is a commonly used metal for implants in clinical practice. While Ti6Al4V scaffolds
offer adjustable mechanical properties, they are prone to causing infections post …
offer adjustable mechanical properties, they are prone to causing infections post …
Interfacial structure and wear properties of selective laser melted Ti/(TiC+ TiN) composites with high content of reinforcements
L **, K Ding, D Gu, S Guo, M Cao, J Zhuang… - Journal of alloys and …, 2021 - Elsevier
High-fraction ceramic particulate-reinforced titanium matrix composites were manufactured
by selective laser melting (SLM) from starting powders containing Ti-TiC, Ti-TiN, Ti-TiC-TiN …
by selective laser melting (SLM) from starting powders containing Ti-TiC, Ti-TiN, Ti-TiC-TiN …
[HTML][HTML] Additive manufacturing of heavy rare earth free high-coercivity permanent magnets
Laser based powder bed fusion is a promising manufacturing method that can be used for
the fabrication of hard magnets such as NdFeB with nearly any given geometrical shape …
the fabrication of hard magnets such as NdFeB with nearly any given geometrical shape …