Design and characterization of novel Zr-Al-Fe-Y metallic glasses with nanoscale phase separation

Devinder Singh; Ramasamy Parthiban; Anna Jelinek; Rahul Bhattacharya; Zhuo Chen; Simon Fellner; Christoph Gammer; Zaoli Zhang; Jürgen Eckert

doi:10.1016/j.mtla.2024.102104

Design and characterization of novel Zr-Al-Fe-Y metallic glasses with nanoscale phase separation

Devinder Singh
, Ramasamy Parthiban
, Anna Jelinek
, Rahul Bhattacharya
, Zhuo Chen
, Simon Fellner
, Christoph Gammer
, Zaoli Zhang
, Jürgen Eckert

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Begutachtung

Abstract

We present a new phase-separated Zr-based metallic glass (MG) composition, free of toxic elements (Ni and Cu) prepared in a glass-forming system by alloying addition. The substitution of Y in Zr _70- _xAl _12.5Fe _17.5Y _x (x = 0–15 at.%) results in phase separation, giving rise to nano-amorphous domains in a glassy matrix. A homogeneous MG feature is observed for low concentrations of Y up to x = 5. Microstructure and thermal property analysis indicate that the glasses with x = 10 and 15 at.% Y exhibit a typical liquid phase separation-induced two-glassy phase (Zr-rich and Y-rich) with droplet-like microstructures (nano-amorphous domains). With increasing Y addition, the domain size increases. The microstructural evolution arising due to phase separation in these alloys is confirmed by a combination of transmission electron microscopy (TEM) and atom probe tomography (APT) analysis. The formation of nanometer-size Y-enriched clusters is confirmed by APT for x = 15.

Originalsprache	Englisch
Aufsatznummer	102104
Seitenumfang	7
Fachzeitschrift	Materialia
Jahrgang	34.2024
Ausgabenummer	May
Frühes Online-Datum	24 Apr. 2024
DOIs	https://doi.org/10.1016/j.mtla.2024.102104
Publikationsstatus	Veröffentlicht - Mai 2024

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10.1016/j.mtla.2024.102104

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title = "Design and characterization of novel Zr-Al-Fe-Y metallic glasses with nanoscale phase separation",

abstract = "We present a new phase-separated Zr-based metallic glass (MG) composition, free of toxic elements (Ni and Cu) prepared in a glass-forming system by alloying addition. The substitution of Y in Zr 70- xAl 12.5Fe 17.5Y x (x = 0–15 at.\%) results in phase separation, giving rise to nano-amorphous domains in a glassy matrix. A homogeneous MG feature is observed for low concentrations of Y up to x = 5. Microstructure and thermal property analysis indicate that the glasses with x = 10 and 15 at.\% Y exhibit a typical liquid phase separation-induced two-glassy phase (Zr-rich and Y-rich) with droplet-like microstructures (nano-amorphous domains). With increasing Y addition, the domain size increases. The microstructural evolution arising due to phase separation in these alloys is confirmed by a combination of transmission electron microscopy (TEM) and atom probe tomography (APT) analysis. The formation of nanometer-size Y-enriched clusters is confirmed by APT for x = 15.",

keywords = "Metallic glasses, Microstructure, Nano-amorphous domain, Phase separation, Zr-alloys",

author = "Devinder Singh and Ramasamy Parthiban and Anna Jelinek and Rahul Bhattacharya and Zhuo Chen and Simon Fellner and Christoph Gammer and Zaoli Zhang and J{\"u}rgen Eckert",

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doi = "10.1016/j.mtla.2024.102104",

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T1 - Design and characterization of novel Zr-Al-Fe-Y metallic glasses with nanoscale phase separation

AU - Singh, Devinder

AU - Parthiban, Ramasamy

AU - Jelinek, Anna

AU - Bhattacharya, Rahul

AU - Chen, Zhuo

AU - Fellner, Simon

AU - Gammer, Christoph

AU - Zhang, Zaoli

AU - Eckert, Jürgen

PY - 2024/5

Y1 - 2024/5

N2 - We present a new phase-separated Zr-based metallic glass (MG) composition, free of toxic elements (Ni and Cu) prepared in a glass-forming system by alloying addition. The substitution of Y in Zr 70- xAl 12.5Fe 17.5Y x (x = 0–15 at.%) results in phase separation, giving rise to nano-amorphous domains in a glassy matrix. A homogeneous MG feature is observed for low concentrations of Y up to x = 5. Microstructure and thermal property analysis indicate that the glasses with x = 10 and 15 at.% Y exhibit a typical liquid phase separation-induced two-glassy phase (Zr-rich and Y-rich) with droplet-like microstructures (nano-amorphous domains). With increasing Y addition, the domain size increases. The microstructural evolution arising due to phase separation in these alloys is confirmed by a combination of transmission electron microscopy (TEM) and atom probe tomography (APT) analysis. The formation of nanometer-size Y-enriched clusters is confirmed by APT for x = 15.

AB - We present a new phase-separated Zr-based metallic glass (MG) composition, free of toxic elements (Ni and Cu) prepared in a glass-forming system by alloying addition. The substitution of Y in Zr 70- xAl 12.5Fe 17.5Y x (x = 0–15 at.%) results in phase separation, giving rise to nano-amorphous domains in a glassy matrix. A homogeneous MG feature is observed for low concentrations of Y up to x = 5. Microstructure and thermal property analysis indicate that the glasses with x = 10 and 15 at.% Y exhibit a typical liquid phase separation-induced two-glassy phase (Zr-rich and Y-rich) with droplet-like microstructures (nano-amorphous domains). With increasing Y addition, the domain size increases. The microstructural evolution arising due to phase separation in these alloys is confirmed by a combination of transmission electron microscopy (TEM) and atom probe tomography (APT) analysis. The formation of nanometer-size Y-enriched clusters is confirmed by APT for x = 15.

KW - Metallic glasses

KW - Microstructure

KW - Nano-amorphous domain

KW - Phase separation

KW - Zr-alloys

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DO - 10.1016/j.mtla.2024.102104

M3 - Article

SN - 2589-1529

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JO - Materialia

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