Effect of thermomechanical treatment on structure and properties of metastable Ti-25Nb-8Sn alloy
HSU, H.-C., WONG, K.-K., CHEN, J.-S., WU, S.-C., HO, W.-F.
vol. 59 (2021), no. 6, pp. 357 - 377
DOI: 10.4149/km_2021_6_357
Abstract
 In this work, different thermomechanical treatment conditions were used to improve the mechanical performances of Ti-25Nb-8Sn. During cold rolling treatment (50, 75, and 90 %), as-cast Ti-25Nb-8Sn underwent a stress-induced phase transformation from a single β phase to a three-phase structure of α'' + β + ωstr. After the subsequent aging treatment, Ti-25Nb-8Sn presents three-phase β + α'' + ωiso (at 250 and 400 °C, for 30 min) and two-phase β + α (at 600 °C, for 30 min). At lower aging temperatures (250 and 400 °C), yield strength/modulus (× 1000) ratios of Ti-25Nb-8Sn are dramatically improved with a maximum increase of 143 %, from 9.06 (as-cast) to 16.2–22.0. Under various thermomechanical treatment conditions in this study, the results show that Ti-25Nb-8Sn has excellent yield strength/modulus (× 1000) ratio (∼ 22) and corrosion resistance after 90 % cold rolling and subsequent aging treatment at 250 and 400 °C for 30 min. Key words
titanium alloys, biomaterials, cold working, aging, hardness ![[open article.pdf]](full_yes.gif) Full text (1416 KB)
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