Rejuvenation and plasticization of Zr-based bulk metallic glass with various Ta content upon deep cryogenic cycling

In this paper, the rejuvenation of Zr-Cu-Al-Ni-Ta bulk metallic glasses (BMGs) upon deep cryogenic cycling treatment (DCT) has been studied. The samples show rejuvenation upon DCT with an increased enthalpy of relaxation (ΔHrelax) and a decreased density. With more Ta addition, the BMGs can be rejuv...

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Bibliographic Details
Published in:Journal of alloys and compounds 2019-07, Vol.795, p.314-318
Main Authors: Guo, Wei, Shao, Yuman, Saida, Junji, Zhao, Mi, Lü, Shulin, Wu, Shusen
Format: Article
Language:English
Subjects:
Aluminum
Amorphous materials
Composition effects
Compressive strength
Copper
Cryogenic cycling treatment
Cryogenic treatment
Cycles
Edge dislocations
Enthalpy
Fracture strength
Metallic glass
Metallic glasses
Nickel
Plastic deformation
Plasticization
Rejuvenation
Shear bands
Tantalum
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Summary:In this paper, the rejuvenation of Zr-Cu-Al-Ni-Ta bulk metallic glasses (BMGs) upon deep cryogenic cycling treatment (DCT) has been studied. The samples show rejuvenation upon DCT with an increased enthalpy of relaxation (ΔHrelax) and a decreased density. With more Ta addition, the BMGs can be rejuvenated to a higher energy state, that is, the increment in both ΔHrelax and reduced free volume is larger for the BMGs with a higher Ta content. The fracture strength and plastic strain under compression increase with Ta content due to the evolution of intrinsic heterogeneous microstructures. Furthermore, the DCT treated samples show even better plasticity than the as-cast counterparts for the more induced free volume, which contribute to the generation of multiple shear bands. This study proves the universality of DCT on rejuvenating Zr-based BMGs and explains the effect of composition on rejuvenation and plasticization behavior. •BMGs containing Ta can be rejuvenated upon DCT with a higher enthalpy of relaxation.•With increasing Ta content, the rejuvenation can be achieved to a higher degree.•A higher Ta content induces a higher fracture strength and larger plastic strain.•DCT can plasticize the BMGs because of more induced free volume.•Ta causes the evolution of local heterogeneity and contributes to the rejuvenation.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.04.340