| Literature DB >> 34945938 |
Bin Zhang1, Yu Tang1, Shun Li1, Yicong Ye1, Li'an Zhu1, Zhouran Zhang1, Xiyue Liu1, Zhen Wang1, Shuxin Bai1.
Abstract
To determine the effects of Ti and mixing entropy (ΔSmix) on the structure and mechanical proper-ties of Zr-Ta alloys and then find a new potential energetic structural material with good me-chanical properties and more reactive elements, TixZr2.5-xTa (x = 0, 0.5, 1.0, 1.5, 2.0) alloys were investigated. The XRD experimental results showed that the phase transformation of TixZr2.5-xTa nonequal-ratio ternary alloys depended not on the value of ΔSmix, but on the amount of Ti atoms. With the addition of Ti, the content of the HCP phase decreased gradually. SEM analyses revealed that dendrite morphology and component segregation increasingly developed and then weakened gradually. When x increases to 2.0, TixZr2.5-xTa with the best mechanical properties can be ob-tained. The yield strength, compressive strength and fracture strain of Ti2.0Zr0.5Ta reached 883 MPa, 1568 MPa and 34.58%, respectively. The dependence of the phase transformation and me-chanical properties confirms that improving the properties of Zr-Ta alloys by doping Ti is feasible.Entities:
Keywords: Ti-Zr-Ta alloys; lattice structure; mechanical properties; mixing entropy; morphology
Year: 2021 PMID: 34945938 PMCID: PMC8699865 DOI: 10.3390/e23121632
Source DB: PubMed Journal: Entropy (Basel) ISSN: 1099-4300 Impact factor: 2.524