Eutectic Precipitate Dissolution and Microstructure Evolution of Cr–W–Co Heat-Resistant Steel with Varying Ce Contents

Yu Zhao, Hui Wang, Huai Zhang, Shizhou Wang, Chengbin Shi
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Abstract

The evolution of the microstructure, the dissolution kinetics of (Fe,Cr)2W Laves phase and the microhardness of Cr–W–Co heat-resistant steel with different Ce concentrations during homogenization were investigated. The mechanism of the influence of Ce on the Cr–W–Co heat-resistant steel during homogenization process was clarified. The homogenization kinetic equation considering lattice parameters and specimen thickness correction was established. The activation energy for Laves phase dissolution in the steel with 0, 0.01 and 0.03 mass pct Ce is determined based on Johnson–Mehl–Avrami–Kolmogorov model to be 302.12, 293.26 and 278.43 kJ/mol, respectively. The activation energy for the dissolution of Laves phase decreases with increasing the Ce content, leading to an increase in the volume fraction of dissolved Laves phase in the steel with the increase in the Ce content from 0 to 0.03 mass pct after the soaking for 7 hours. The homogenization degree of alloying elements Cr, W, V and Nb increases with the Ce content in steel increases after homogenization treatment. The reduction in the standard deviation of microhardness of the steel after homogenization reflects a decrease in the microsegregation degree of alloying elements.

Abstract Image

不同含 Ce 量的 Cr-W-Co 耐热钢的共晶析出和显微结构演变
研究了不同Ce浓度的Cr-W-Co耐热钢在均质过程中显微组织的演变、(Fe,Cr)2W Laves相的溶解动力学以及显微硬度。阐明了均质过程中 Ce 对 Cr-W-Co 耐热钢的影响机理。建立了考虑晶格参数和试样厚度修正的均质动力学方程。根据 Johnson-Mehl-Avrami-Kolmogorov 模型,确定了含 0、0.01 和 0.03 质量 pct Ce 的钢中 Laves 相溶解的活化能分别为 302.12、293.26 和 278.43 kJ/mol。随着 Ce 含量的增加,溶解 Laves 相的活化能降低,因此在浸泡 7 小时后,随着 Ce 含量从 0 质量百分数增加到 0.03 质量百分数,钢中溶解的 Laves 相的体积分数增加。均质处理后,随着钢中 Ce 含量的增加,合金元素 Cr、W、V 和 Nb 的均质度也随之增加。均质化后钢材显微硬度标准偏差的降低反映了合金元素微偏析度的降低。
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