Effect of Minor Addition of Oxygen on Bulk Metallic Glass Formation of Binary Cu–Zr Alloys via Containerless Processing

Mizuno, Akitoshi; Harada, Taishi; Watanabe, Masaru

doi:10.1002/pssb.202000140

Cited by 7 publications

(4 citation statements)

References 28 publications

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“…Employing molecular dynamic simulation, it was discovered that minor addition of Y increased the icosahedra and Kasper polyhedra with high local five-fold symmetry in a MgCuY amorphous system and improved the GFA properties [27]. Mizuno et al [28] revealed that the minor addition of oxygen, even in ppm, led to the significant changes in the critical cooling rate of the glassy alloys.…”

Section: Introductionmentioning

confidence: 99%

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RETRACTED ARTICLE: Effects of Cr Microalloying on Structural Evolution, Crystallization Behavior and Micromechanical Properties of ZrCoAlCr Bulk Metallic Glass

Supriyono

Aravindhan

Thangavelu

et al. 2021

Trans Indian Inst Met

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This paper deals with the role of minor addition of Cr on the atomic rearrangement and crystallization evolution in a Zr-based bulk metallic glass. For this purpose, Cr elements with 1-4% atomic percentage were added into the alloying composition. The X-ray diffraction results indicated that the trace element led to the increase in disordered structures in the glassy alloy and the decline in population of short and medium scale orders. This event was due to the intensification of structural heterogeneity which was manifested in the change of enthalpy relaxation. The differential scanning calorimetry analysis also showed that all ZrCoAlCr BMG samples included two distinct crystallization peaks during the heating process. However, the increase in Cr content led to the intensification of low temperature peak. This result was consistent with viscosity analysis, in which the viscosity decrement was intensified at the range of low temperature crystallization peak with the rise in Cr content. Moreover, it was found that although the plasticity improved in samples with Cr-content, the strength showed a slight decrease.

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Section: Introductionmentioning

confidence: 99%

“…According to literature [22,23,28], microalloying from metalloid elements to rare-earth ones may lead to the improvement of GFA and mechanical behaviors in the BMGs. However, the mechanisms for betterment of properties are still under debate.…”

Section: Introductionmentioning

confidence: 99%

RETRACTED ARTICLE: Effects of Cr Microalloying on Structural Evolution, Crystallization Behavior and Micromechanical Properties of ZrCoAlCr Bulk Metallic Glass

Supriyono

Aravindhan

Thangavelu

et al. 2021

Trans Indian Inst Met

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“…[125] Only recently, Mizuno et al showed by synchrotron X-ray diffraction, that a small amount of oxygen in binary Cu-Zr could improve the glass-forming ability, which was explainable by an increased viscosity due to oxygen. [126] Containerless benchmark measurements of the viscosity of Cu 50 Zr 50 in the ISS-EML showed good agreement with MD simulations. [97] Further simulations show that the temperature-dependent viscosity of Cu 50 Zr 50 is related to the atomic packing evolution in the melt.…”

Section: Recent Resultsmentioning

confidence: 59%

Investigating Thermophysical Properties Under Microgravity: A Review

Mohr

Fecht

2020

Adv Eng Mater

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The advancement of metallic alloys is generally driven by alloy development, but furthermore requires the development of suitable production and processing routines. Almost all metallic products are formed through the solidification processing from the liquid phase. Although the solid-state is not influenced by gravitational effects, the processing of liquids is strongly impacted by earth's gravity-this influences interface phenomena, momentum, heat, and mass transport and, consequently, the solidification events. Experiments on liquid metallic alloys in microgravity avoid these influences and therefore allow benchmark experiments. This allows, for example, to obtain reliable thermophysical properties, improve the understanding of nucleation, phase selection, crystal growth, and other basic features of the liquid phase and the liquid-solid transition. The basic methodology, as well as a number of recent results obtained in the long-duration microgravity environment on board the international space station, are presented and discussed.

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“…According to Stokes–Einstein equation [32], the oxygen diffusion coefficient is inversely proportional to the dynamic viscosity of the solution. Previous experimental research showed the viscosity of some metallic glasses increases with higher oxygen concentrations [33,34]. Consequently, CP materials are presumably more viscous than HP ones.…”

Section: Resultsmentioning

confidence: 99%

Influence of oxygen in the production chain of Cu–Ti-based metallic glasses via laser powder bed fusion

et al. 2023

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Laser powder bed fusion of metals (PBF-LB/M) is advantageous for manufacturing bulk metallic glasses with size and geometrical freedom. However, the oxygen uptake along the production chain can negatively impact the generation of high-quality, amorphous parts. In this context, Cu-Ti-based alloys were gas-atomised and additively manufactured using commercial-(CP) and high-purity (HP) feedstocks. The oxygen absorption in each processing step was tracked and related to the amorphous phase formation and glass-forming ability (GFA) of alloys. Results show an increasing oxygen absorption, considerably influenced by the starting feedstock, especially for CP. In HP material, the most contribution is inherent from the powder oxygen content. Results reveal the lack of influence of the oxygen content in the GFA. TEM analysis of commercial powder and PBF-LB/M sample show uniform and featureless micrographs, displaying the absence of oxygen-induced nucleation. The present contribution enhances the qualification and economic processability of amorphous metals by PBF-LB/M.

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Effect of Minor Addition of Oxygen on Bulk Metallic Glass Formation of Binary Cu–Zr Alloys via Containerless Processing

Cited by 7 publications

References 28 publications

RETRACTED ARTICLE: Effects of Cr Microalloying on Structural Evolution, Crystallization Behavior and Micromechanical Properties of ZrCoAlCr Bulk Metallic Glass

RETRACTED ARTICLE: Effects of Cr Microalloying on Structural Evolution, Crystallization Behavior and Micromechanical Properties of ZrCoAlCr Bulk Metallic Glass

Investigating Thermophysical Properties Under Microgravity: A Review

Influence of oxygen in the production chain of Cu–Ti-based metallic glasses via laser powder bed fusion

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