Influence of irradiation on indicatory surface of anelastic-elastic body of AgZn alloy

Influence of irradiation on indicatory surface of anelastic-elastic body of AgZn alloy

The temperature dependence of internal friction Q ^−1 and elastic modulus Е (‘indicatory surface of anelastic-elastic body’) of Ag _0.8 Zn _0.2 alloy was studied. After electron irradiation, sharp exponential growth of internal friction background Q ^−1 _b was observed at temperatures T > 610 K....

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Main Authors: Yurii Onanko, Lyudmyla Kuzmych, Anatoliy Onanko, Oksana Dmytrenko, Tetiana Pinchuk-Rugal, Serhii Usatyi, Peter Il’in, Stepan Kuzmych
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Materials Research Express
Subjects:
alloy
elastic modulus
internal friction
electron irradiation
short-range order
Online Access:https://doi.org/10.1088/2053-1591/adabbc
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Summary:The temperature dependence of internal friction Q ^−1 and elastic modulus Е (‘indicatory surface of anelastic-elastic body’) of Ag _0.8 Zn _0.2 alloy was studied. After electron irradiation, sharp exponential growth of internal friction background Q ^−1 _b was observed at temperatures T > 610 K. The effect of radiation exposure on the temperature dependence of internal friction Q ^−1 and elastic modulus Е of Ag _0.8 Zn _0.2 alloy, which is ordered, was studied. The temperature intervals of formation and rearrangement of the short-range order were determined. The influence of electron irradiation and thermomechanical treatment on the short-range ordering processes of AgZn solid solutions was studied. After electron irradiation, the temperature dependence of internal friction Q ^−1 and elastic modulus Е (‘indicatory surface of anelastic-elastic body’) of Ag _0.8 Zn _0.2 alloy revealed internal friction maximum Q ^−1 _М1 at temperature T _М1 ≈ 560 K.
ISSN:2053-1591

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