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首页> 外文期刊>Key Engineering Materials >Creep Curve Modeling of Hastelloy-X Alloy by Using the Nonlinear Regression Method in the Kachanov-Rabotnov Creep Model
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Creep Curve Modeling of Hastelloy-X Alloy by Using the Nonlinear Regression Method in the Kachanov-Rabotnov Creep Model

机译:Kachanov-Rabotnov蠕变模型中使用非线性回归方法对哈氏合金X合金的蠕变曲线建模

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摘要

To design HTGR components for up to 1000℃, their creep curves are necessary during a design process. In this study, the full creep curves were modeled by the nonlinear least square fitting method using the Kachanov-Rabotnov (K-R) creep model. A series of creep data was obtained experimentally under various stress levels for Hastelloy-X at 950℃, and the data was used to model the creep curves. The K-R model gave a poor description of modeling creep curves, but the modified K-R one, which has another variable, K in the K-R model, was in better agreement than the K-R one. It was found that the λ parameter in the K-R model was constant regardless of the stress variations. The λ value was about 3.9 for the K-R model and about 5.8 for the modified one.
机译:为了设计温度高达1000℃的HTGR组件,在设计过程中必须要有它们的蠕变曲线。在这项研究中,使用Kachanov-Rabotnov(K-R)蠕变模型通过非线性最小二乘拟合方法对整个蠕变曲线进行建模。在950℃的不同应力水平下,通过实验获得了一系列蠕变数据,并将其用于建模蠕变曲线。 K-R模型对蠕变曲线建模的描述很差,但是修改后的K-R模型具有另一个变量,即K-R模型中的K,比K-R模型具有更好的一致性。发现在K-R模型中的λ参数是恒定的,而与应力变化无关。对于K-R模型,λ值约为3.9,对于改进模型,λ值为5.8。

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