Metals | |
Isochronal Phase Transformation in Bimodal Ti-55531 | |
Guanglong Xu1  Hui Chang1  Fuwen Chen2  Kechao Zhou2  | |
[1] College of Materials Science and Engineering, Nanjing Tech University, Nanjing 210009, China;;Tech Institute for Advanced Materials & | |
关键词: Ti-55531; isochronal transformation; activation energy; Gibbs-Thomson effect; | |
DOI : 10.3390/met9070790 | |
来源: DOAJ |
【 摘 要 】
Bimodal microstructures where globular α and acicular α phases are embedded in the β matrix are commonly used in industry-relevant Ti-55531. To optimize the performance of Ti-55531 through heat treatment, it is crucial to understand and control the phase transformation in the as-received bimodal Ti-55531 as well as its microstructure evolution. In this work, the isochronal phase transformations and microstructure evolution in the bimodal Ti-55531 during the continuous heating were systematically studied by combining dilatometry, XRD phase analyses, and SEM observation. The β → α transformation occurred at 678 K only with the acicular α. When the temperature was higher than 788 K, α → β transformation took place in two separate stages (i.e., αacicular → β and αglobular → β transformation). The dissolution of αglobular occurred after the dissolution of αacicular was completed. Due to the difference in the chemical composition and interface curvature between αacicular and αglobular, the average activation energy for αacicular → β transformation was lower than that for the αglobular → β transformation. The isochronal phase transformation and microstructure evolution during continuous heating in the present work could be used to optimize heat treatment procedures for desired mechanical properties.
【 授权许可】
Unknown