Shungui Zuo
YOU?
Author Swipe
View article: Microstructural mechanism underlying the stress recovery behavior of a Fe–Mn–Si shape memory alloy
Microstructural mechanism underlying the stress recovery behavior of a Fe–Mn–Si shape memory alloy Open
Recovery stress governs the prestress strengthening effect of Fe–Mn–Si-based shape memory alloys in civil engineering applications. Although the effects of grain size, texture, and precipitates on recovery stresses have been extensively st…
View article: Insights into the influence of Ni4Ti3 precipitates and martensite transformation on the glide of a[100] dislocation in austenitic NiTi alloys: an atomistic simulation study
Insights into the influence of Ni4Ti3 precipitates and martensite transformation on the glide of a[100] dislocation in austenitic NiTi alloys: an atomistic simulation study Open
Dislocation-dominated plastic deformation in austenitic NiTi alloys is highly detrimental and it could be suppressed by precipitation of Ni4Ti3. Additionally, at a certain temperature range, not only Ni4Ti3 precipitate but also the B19’ ma…
View article: Effect of polyurethane coating on mechanical response of shape memory alloy wires
Effect of polyurethane coating on mechanical response of shape memory alloy wires Open
In micro-electro-mechanical systems, the risk of short circuit arises when shape memory alloy (SMA) wire actuators mistakenly come into contact with other metal parts. Coating the SMAs with insulating layer can solve this problem. However,…
View article: Interpretable machine learning workflow for evaluation of the transformation temperatures of TiZrHfNiCoCu high entropy shape memory alloys
Interpretable machine learning workflow for evaluation of the transformation temperatures of TiZrHfNiCoCu high entropy shape memory alloys Open
Machine learning approaches (ML) based on data-driven models are conducive to accelerating the assessments of the martensitic transformation peak temperature (Tp) of TiZrHfNiCoCu high entropy shape memory alloys (HESMAs) over a huge compos…
View article: Internal Friction Behavior Associated with Martensitic Decomposition in Low-carbon Dual-phase Steel
Internal Friction Behavior Associated with Martensitic Decomposition in Low-carbon Dual-phase Steel Open
In this study, the martensitic decomposition behaviors of a low-carbon dual-phase steel were investigated by the low-frequency internal friction method, combined with various structural analysis techniques including X-ray diffraction, scan…