Creep damage assessment of HR3C austenitic steel by using misorientation parameters derived from EBSD technique

Gaole Hong, Na Risu, Fubao Zhang, Maoxun Sun, Yue Zhang, Xiao Wang
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Abstract

The evaluation ability of misorientation parameters and Kikuchi band parameters on creep damage of HR3C austenitic steel is reported in this paper. HR3C steel samples were subjected to the creep process for 475, 756, 1240, and 1300 h, respectively. During the creep process, the average kernel average misorientation (KAM) and grain reference orientation deviation (GROD) increased significantly overall as the creep time increased, while the average mean angle deviation (MAD) and band contrast (BC) did not show significant changes. When comparing GROD and KAM, it was found that the variation range of GROD is larger and the variation trend is monotonous, making GROD more suitable for evaluating the creep damage of HR3C steel. Subsequently, the physical mechanism of GROD is derived and studied.
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利用 EBSD 技术得出的错误取向参数评估 HR3C 奥氏体钢的蠕变损伤
本文报告了错误取向参数和菊池带参数对 HR3C 奥氏体钢蠕变损伤的评估能力。对 HR3C 钢样品分别进行了 475、756、1240 和 1300 h 的蠕变过程。在蠕变过程中,随着蠕变时间的增加,平均晶核平均取向偏差(KAM)和晶粒参考取向偏差(GROD)总体上显著增加,而平均平均角度偏差(MAD)和晶带对比度(BC)则没有显著变化。对比 GROD 和 KAM 发现,GROD 的变化范围更大,且变化趋势单调,因此 GROD 更适合评估 HR3C 钢的蠕变损伤。随后,对 GROD 的物理机理进行了推导和研究。
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