Friction stir based welding, processing, extrusion and additive manufacturing
Friction stir welding and processing enabled the creation of stronger joints, novel ultrafine-
grained metals, new metal matrix composites, and multifunctional surfaces at user-defined …
grained metals, new metal matrix composites, and multifunctional surfaces at user-defined …
Review on ultra-high temperature boride ceramics
Ceramic materials having melting points higher than 3000° C and suitable for structural
applications at above 2000° C are commonly known as Ultra-High Temperature Ceramics …
applications at above 2000° C are commonly known as Ultra-High Temperature Ceramics …
Ultra-high temperature ceramics for extreme environments
Modern demands in clean energy and space exploration require materials scientists to
develop materials that perform in the most extreme conditions in our universe. Recent …
develop materials that perform in the most extreme conditions in our universe. Recent …
Advances in modifications and high-temperature applications of silicon carbide ceramic matrix composites in aerospace: a focused review
X Wang, X Gao, Z Zhang, L Cheng, H Ma… - Journal of the European …, 2021 - Elsevier
This article is a detailed review of the measures to modify the high-temperature mechanical
properties of silicon carbide ceramic matrix composites (SiC CMCs), namely toughness …
properties of silicon carbide ceramic matrix composites (SiC CMCs), namely toughness …
Micro/nano multiscale reinforcing strategies toward extreme high-temperature applications: Take carbon/carbon composites and their coatings as the examples
Q Fu, P Zhang, L Zhuang, L Zhou, J Zhang… - Journal of Materials …, 2022 - Elsevier
Carbon fiber reinforced carbon composites (C/Cs), are the most promising high-temperature
materials and could be widely applied in aerospace and nucleation fields, owing to their …
materials and could be widely applied in aerospace and nucleation fields, owing to their …
Materials for future nuclear energy systems
Materials for future nuclear energy systems must operate under more extreme conditions
than those in current Gen II or Gen III systems. These conditions include higher temperature …
than those in current Gen II or Gen III systems. These conditions include higher temperature …
Advances in oxidation and ablation resistance of high and ultra-high temperature ceramics modified or coated carbon/carbon composites
Abstract Carbon/carbon (C/C) composites are considered as one of the most promising
materials in structural applications owing to their excellent mechanical properties at high …
materials in structural applications owing to their excellent mechanical properties at high …
Microstructure and mechanical properties of (TiZrNbTaMo) C high-entropy ceramic
K Wang, L Chen, C Xu, W Zhang, Z Liu, Y Wang… - Journal of Materials …, 2020 - Elsevier
A high-entropy (TiZrNbTaMo) C ceramic has been successfully fabricated by hot pressing
the newly-synthesized quinary carbide powder to investigate its microstructure and …
the newly-synthesized quinary carbide powder to investigate its microstructure and …
Dense high-entropy boride ceramics with ultra-high hardness
Highly dense high-entropy boride ceramics with ultra-high hardness were prepared by spark
plasma sintering of the self-synthesized high-entropy boride powders. High-entropy boride …
plasma sintering of the self-synthesized high-entropy boride powders. High-entropy boride …
Synthesis of single-phase high-entropy carbide powders
High-entropy carbide powders were produced by a two-step synthesis process consisting of
carbothermal reduction followed by solid solution formation. Nominally pure (Hf, Zr, Ti, Ta …
carbothermal reduction followed by solid solution formation. Nominally pure (Hf, Zr, Ti, Ta …