Your search keyword '"Liu, Shuhao"' showing total 2 results

1. Improved mechanical and corrosion properties of CrMnFeCoNi high entropy alloy with cold rolling and post deformation annealing process.

Author

Zou, Yun, Li, Songlin, Liu, Shuhao, Li, Jingkai, and Li, Yang

Subjects

*TENSILE strength, *CORROSION potential, *DEFORMATIONS (Mechanics), *ENTROPY, *CORROSION in alloys

Abstract

• Twinning intersection is found during the microstructure evolution of CrMnFeCoNi HEA. • Slip plane and direction of the alloy are {111} and< 110 > , respectively. • CR-PDA process improves the comprehensive mechanical and corrosion properties of the alloy. The effects of cold rolling and post deformation annealing (CR‐PDA) process on the comprehensive mechanical and corrosion properties of CrMnFeCoNi high entropy alloy (HEA) were investigated. The results indicate that the grain size was obviously refined from 207.5 µm to 4.6 µm. Moreover, the microhardness, yield strength and ultimate tensile strength increased by 28%, 68% and 24%, respectively. However, the elongation decreased from 59.3% to 43.8%. The strengthening mechanisms are mainly fine grain and dislocation density strengthening. Furthermore, the corrosion potential increased and the corrosion current density decreased after the CR-PDA process, indicating that the corrosion resistance of the alloy was improved, possibly because of the grain refinement and residual compressive stress. In conclusion, the CR-PDA process improves the comprehensive mechanical and corrosion properties of CrMnFeCoNi HEA. [ABSTRACT FROM AUTHOR]

Published

2021

2. Effective metal encapsulation of carbon nanotubes by micro-current electrochemical deposition.

Author

Fu, Chengcheng, Yang, Na, Huang, Hongyang, Bu, Fanqi, Yao, Huchen, Liu, Shuhao, Cheng, Yonghong, and Zhang, Jinying

Subjects

*CARBON nanotubes, *METALS, *LITHIUM, *CHEMICAL yield, *ALKALI metals, *ELECTROCHEMICAL cutting

Abstract

The inner cavities of carbon nanotubes (CNTs) have attracted much attention for one-dimensional structures and their unique properties. The encapsulation of hetero-structures into CNTs is the foundation for potential applications. Solution and vapor methods have been well adopted for CNTs encapsulations. The solution method is restricted to its low encapsulation yield. Only chemicals with relatively low sublimation points under low pressures and low activity have been demonstrated to be encapsulated into the inner cavities of CNTs by vapor methods. No effective encapsulation method for most metals has been explored so far. Now, a widely applicable metal encapsulation method, micro-current electrochemical deposition, has been demonstrated to encapsulate lithium, sodium and potassium metals into CNTs with high yield. The volumetric encapsulation yields of lithium, sodium and potassium metal have been demonstrated to be higher than 65%. [Display omitted] • A micro-current electrochemical deposition method has been reported to encapsulate metals into MWCNTs. • The encapsulation yields of Li, Na and K have been demonstrated to be about 68%, 74%, and 75%, respectively. • The elemental status of the encapsulated metals was confirmed by elemental maps and hydrolysis reaction to yield hydrogen. • The encapsulation method has been explored to be an effective and widely applicable encapsulation method for metals. [ABSTRACT FROM AUTHOR]

Published

2022