[HTML][HTML] Design biodegradable Zn alloys: Second phases and their significant influences on alloy properties
ZZ Shi, XX Gao, HJ Zhang, XF Liu, HY Li, C Zhou… - Bioactive materials, 2020 - Elsevier
Alloying combined with plastic deformation processing is widely used to improve
mechanical properties of pure Zn. As-cast Zn and its alloys are brittle. Beside plastic …
mechanical properties of pure Zn. As-cast Zn and its alloys are brittle. Beside plastic …
The regulation strategy for releasing residual stress in ceramic-metal brazed joints
P Li, Y Yan, J Ba, P Wang, H Wang, X Wang… - Journal of Manufacturing …, 2023 - Elsevier
Ceramics and ceramic-based composites have been widely used in electronic information
and communication, chemical industry, instrument manufacturing and other fields. However …
and communication, chemical industry, instrument manufacturing and other fields. However …
Trifunctional nanoprecipitates ductilize and toughen a strong laminated metastable titanium alloy
C Zhang, S Liu, J Zhang, D Zhang, J Kuang… - Nature …, 2023 - nature.com
Abstract Metastability-engineering, eg, transformation-induced plasticity (TRIP), can
enhance the ductility of alloys, however it often comes at the expense of relatively low yield …
enhance the ductility of alloys, however it often comes at the expense of relatively low yield …
Evading the strength-ductility trade-off at room temperature and achieving ultrahigh plasticity at 800℃ in a TiAl alloy
G Zheng, B Tang, S Zhao, WY Wang, X Chen, L Zhu… - Acta Materialia, 2022 - Elsevier
Improving the room temperature (RT) strength/ductility and hot-working capacity based on
lamellar microstructures is of great significance for the practical application of TiAl alloys …
lamellar microstructures is of great significance for the practical application of TiAl alloys …
[HTML][HTML] Microstructural evolution and strain-hardening in TWIP Ti alloys
A multiscale dislocation-based model was built to describe, for the first time, the
microstructural evolution and strain-hardening of {332}⟨ 113⟩ TWIP (twinning-induced …
microstructural evolution and strain-hardening of {332}⟨ 113⟩ TWIP (twinning-induced …
Development of an additively manufactured metastable beta titanium alloy with a fully equiaxed grain structure and ultrahigh yield strength
Y Liu, L Xu, C Qiu - Additive Manufacturing, 2022 - Elsevier
Metastable β titanium alloys usually suffer from relatively low yield strengths, which restricts
their applications as a structural material. Additive manufacturing (AM), due to its extremely …
their applications as a structural material. Additive manufacturing (AM), due to its extremely …
Ultrahigh strain hardening in a transformation-induced plasticity and twinning-induced plasticity titanium alloy
In this study, a design strategy employing stress-induced β to hexagonal α′ martensitic
transformation to develop a novel Ti-15Nb-5Zr-4Sn-1Fe alloy with ultrahigh strain hardening …
transformation to develop a novel Ti-15Nb-5Zr-4Sn-1Fe alloy with ultrahigh strain hardening …
[HTML][HTML] Deformation strengthening mechanism of in situ TiC/TC4 alloy nanocomposites produced by selective laser melting
P Huo, Z Zhao, W Du, Z Zhang, P Bai, D Tie - Composites Part B …, 2021 - Elsevier
In this study, in situ-formed TiC/TC4 alloy nanocomposites were fabricated using the
selective laser melting (SLM) process with TC4 and graphene nanoplates (GNPs) powders …
selective laser melting (SLM) process with TC4 and graphene nanoplates (GNPs) powders …
[HTML][HTML] A novel high-strength β-Ti alloy with hierarchical distribution of α-phase: the superior combination of strength and ductility
W Zhu, J Lei, C Tan, Q Sun, W Chen, L Xiao, J Sun - Materials & Design, 2019 - Elsevier
A novel high-strength metastable β-Ti alloy Ti-5Al-4Zr-8Mo-7V has been successfully
designed utilizing the “d-electron theory” combined with the semi-empirical element …
designed utilizing the “d-electron theory” combined with the semi-empirical element …
Lightweight Zr1. 2V0. 8NbTixAly high-entropy alloys with high tensile strength and ductility
High-entropy alloys (HEAs) provide a new perspective to design novel lightweight alloys,
whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the …
whereas the complex precipitates in current lightweight HEAs (LHEAs) generally limit the …