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Phase transformation and mechanical properties of nanocrystalline Ti–2Fe-0.1B alloy processed by high pressure torsion

Yu Wang, Yutong Jin, Yumeng Guo, Kai Chen, Zulei Liang, В. Д. Ситдиков, Yuecheng Dong, Hui Chang, Igor Alexandrov

2024Journal of Materials Research and Technology10 citationsDOIOpen Access PDF

Abstract

In this paper, nano-Ti-2Fe-0.1B alloys with different grain sizes were processed by high pressure torsion (HPT) deformation. The study examined the microstructural evolution of the Ti-2Fe-0.1B alloy during HPT and evaluated its mechanical properties through microhardness and tensile tests. The results of the microstructural observations revealed that the grain size of the Ti-2Fe-0.1B alloy progressively decreased from 3.14 μm in the as-annealed state to approximately 20nm after 10 turns. In the initial state, the alloy consists of -phase and -phases, with a volume ratio of approximately 5:1. During the HPT process, transformations of -phase and -phase to -phase were observed. The primary reason for this is that the shear forces applied during the HPT process facilitated the phase transformation of the -phase. Additionally, the presence of Fe element in the alloy altered the lattice compatibility between the grains of -phase and -phase, thereby promoting the phase transformation of the -phase, with the accumulated turns of HPT process, the fraction of -phase increased in the beginning gradually, then decreased, which reached to the maximum 80.8% in the 5 turns. This is higher than that of pure titanium and Ti-Fe alloys under the same conditions, because the proportion of the -phase increases with the increase in Fe content. Studies of mechanical properties demonstrated that HPT can substantially enhance the hardness of Ti-2Fe-0.1B alloys to as high as 483 HV, and the tensile strength of the Ti-2Fe-0.1B alloy was observed to increase from 725 MPa to 1568 MPa after 5 turns, which is much higher than Ti-6Al-4V subjected to the identical processing conditions. It can be ascribed to the exist of mass -phase as well as finer grain size in nanocrystalline Ti-2Fe-0.1B alloy.

Topics & Concepts

Materials scienceAlloyUltimate tensile strengthGrain sizeIndentation hardnessNanocrystalline materialVolume fractionTitanium alloyMetallurgyPhase (matter)Torsion (gastropod)Severe plastic deformationComposite materialMicrostructureNanotechnologyOrganic chemistryMedicineSurgeryChemistryMicrostructure and mechanical propertiesSurface Treatment and Residual StressTitanium Alloys Microstructure and Properties