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Journal of Electronic Materials

, Volume 48, Issue 3, pp 1324–1329 | Cite as

Tunable Mechanical Properties of Ti-Zr-Ni-Cr Amorphous Ribbons via Vanadium Addition

  • Bing Jiang
  • Jianxin Wang
  • Chengyuan Qian
  • Lingfeng Xu
  • Xueling HouEmail author
5th International Conference of Asian Union of Magnetics Societies
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Part of the following topical collections:
  1. 5th International Conference of Asian Union of Magnetics Societies (IcAUMS)

Abstract

In this paper, the effects of vanadium addition on the mechanical properties of Ti-Zr-Ni-Cr amorphous ribbons with high spinning speed were studied. It was found that the mechanical properties of samples were obvious promoted by adding vanadium into Ti-Zr-Ni-Cr amorphous alloys. The rapidly solidified Ti-Zr-Ni-Cr (V = 0, V = 0.1) ribbons at a speed of 45 m/s is an amorphous structure. But the amorphous structure of Ti-Zr-Ni-Cr-V alloys is even more uniform than that of the V-free alloys samples. In particular, Ti-Zr-Ni-Cr-V amorphous ribbons showed better mechanical properties that the tensile strength (\(\sigma_{b}\)) of the amorphous ribbons samples that had been significantly increased from 542 MPa for V = 0–675 MPa for V = 0.1. The elongation (δ) exhibited a tiny increase from 1.1% for V = 0–1.29% for V = 0.1. The fractured surface of amorphous ribbons for V = 0 showed more cleavage features, it was the obviously brittle fracture. The fracture surface for amorphous ribbons for V = 0 were more vein-like patterns, they are attributed to a local change of viscosity. It’s likely that adding V into Ti-Zr-Ni-Cr amorphous alloys is beneficial to enhance rheological units and massive accumulation of free volume in ribbons. It contributes to mechanical properties, especially for the tensile strength and the plastic deformation of the amorphous ribbons.

Keywords

Ti-Zr-Ni-Cr-V amorphous ribbons mechanical properties free volume serrated flow behavior 

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Notes

Acknowledgments

This work was supported by the Joint Research Fund in Astronomy (U1531120) undercooperative agreement between the National Natural Science Foundation of China (NSFC) and the Chinese Academy of Sciences (CAS).

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Copyright information

© The Minerals, Metals & Materials Society 2018

Authors and Affiliations

  1. 1.Laboratory for MicrostructuresShanghai UniversityShanghaiChina
  2. 2.School of Materials Science and EngineeringShanghai UniversityShanghaiChina

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