Influence of Dynamic Strain Aging on Tensile Deformation Behavior of Alloy 617
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- 作者:I.M.W. Ekaputraa ; wgkim@kaeri.re.kr" class="auth_mail" title="E-mail the corresponding author ; Woo-Gon Kimb ; Jae-Young Parkb ; Seon-Jin Kima ; Eung-Seon Kimb
- 关键词:Alloy 617 ; Dynamic Strain Aging ; Ludwigson ; Serration ; Tensile Curves
- 刊名:Nuclear Engineering and Technology
- 出版年:2016
- 出版时间:December 2016
- 年:2016
- 卷:48
- 期:6
- 页码:1387-1395
- 全文大小:2405 K
文摘
To investigate the dynamic strain aging (DSA) behavior of Alloy 617, high-temperature tensile tests were carried out with strain rates variations of 10−3/s, 10−4/s, and 10−5/s from 24°C to 950°C. Five flow relationships, Hollomon, Ludwik, Swift, Ludwigson, and Voce, were applied to describe the tensile true stress–strain curves, and the DSA region was defined. In describing the tensile curves, Ludwigson's equation was superior to the other equations, and the DSA region was adequately defined by this equation as plateaus at intermediate temperatures from 200°C to 700°C. It was identified that Alloy 617 is dominated by three types of serrations, known as Types D, A+B, and C. The activation energy values for each serration type were obtained by the Arrhenius equation. By using the obtained activation energy values, the serrated yielding map and the DSA mechanism were drawn and manifested. In addition, the relationship between the tensile strength and strain rate at higher temperatures above 700°C was found to be closely related to the amounts of slip lines. In the scanning electron microscope (SEM) fractographs, there was a significant difference at the low, intermediate, and high temperatures, but almost the same to the three strain rates.