Zr-1%Nb 合金的气体渗碳动力学

IF 0.7 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Materials Science Pub Date : 2024-06-18 DOI:10.1007/s11003-024-00819-1

V. S. Trush, I. M. Pohrelyuk, A. G. Lyk’yanenko, T. M. Kravchyshyn, V. M. Fedirko, V. M. Korendii, I. V. Kovalchuk

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引用次数: 0

摘要

研究了薄片（约 1 mm）Zr-1%Nb 合金样品在含碳气体介质（\({P}_\{mathrm{Ar}+\{mathrm{C}}_{3}\{mathrm{H}}_{8}}\} = 0.106 Pa）中处理后的动力学特性，温度范围为 650-850°C，时间为 1、5 和 10 h。合金在 650 和 750°C 温度下的渗碳过程遵循接近线性的规律（n ≈ 1），在 850°C 温度下的渗碳过程遵循接近抛物线的规律（n ≈ 2）。在丙烷分压 \({p}_{\mathrm{C}_{3}\{mathrm{H}}_{8}}\) = 0.018 Pa 时，合金在 650-850°C 温度范围内渗碳的活化能为 2.21 kJ/mol。显示了合金近表面层的显微硬度分布和结构。确定了渗碳后合金近表层的显微组织。介绍了在含碳气体环境中处理后合金表面的 α-Zr 和 ZrC 相含量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Kinetics of Gas Carburizing of Zr–1%Nb Alloy

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Kinetics of Gas Carburizing of Zr–1%Nb Alloy

The kinetic characteristics of thin-sheet (approx. 1 mm) Zr–1%Nb alloy samples after treatment in a carbon-containing gas medium (\({P}_{\mathrm{Ar}+{\mathrm{C}}_{3}{\mathrm{H}}_{8}}\) = 0.106 Pa) in a wide temperature range of 650–850°C and time 1; 5 and 10 h were investigated. The carburizing of the alloy at temperatures of 650 and 750°C occurs according to a law close to linear (n ≈ 1), and at 850°C according to a law close to parabolic (n ≈ 2). The activation energy of the alloy carburizing in the temperature range of 650–850°C at the propane partial pressure \({p}_{{\mathrm{C}}_{3}{\mathrm{H}}_{8}}\) = 0.018 Pa was 2.21 kJ/mol. The distribution of microhardness and structure of the near-surface layers of the alloy was shown. The microstructure of the near-surface layers of the alloy after carburizing was determined. The α-Zr and ZrC phase content on the alloy surface after treatment in a carbon-containing gas environment is presented.

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来源期刊

Materials Science 工程技术-材料科学：综合

CiteScore

1.60

自引率

44.40%

发文量

审稿时长

4-8 weeks

期刊介绍： Materials Science reports on current research into such problems as cracking, fatigue and fracture, especially in active environments as well as corrosion and anticorrosion protection of structural metallic and polymer materials, and the development of new materials.