不同温度下两步等温淬火对AISI9254高硅钢力学和组织性能的影响

IF 1.7 3区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Burak Nalcaci, Meltem Baysun, A. Bahador, J. Umeda, S. Münstermann, A. Kaya, M. Erdoğan
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引用次数: 1

摘要

摘要本研究旨在了解两步等温淬火处理对AISI 9254高硅钢的影响,以根据需要调整性能,同时利用高和低等温淬火温度的优势。样品最初在850°C下奥氏体化20 min,然后在250–270–290°C的盐浴中进行20 min。随后,通过以0.5°C/min的平均加热速率将盐浴的温度提高到300°C来进行第二阶段的等温淬火,并将样品保持在盐浴中以实现120的总等温淬火时间 min,包括加热时间。为了进行比较,还进行了传统的单级等温淬火,其中奥氏体化温度、等温淬火温度和总时间(阶段I和阶段II,即120 min)保持相同。在表征研究中,采用了拉伸试验、硬度试验、XRD分析、光学显微镜和配备EBSD检测器的场发射扫描电子显微镜(FE-SEM)。研究结果表明,降低等温淬火温度可使组织细化,奥氏体含量减少。根据XRD图谱的碳含量分析,无论等温淬火温度如何,两步等温淬火工艺似乎都显著增加了奥氏体的碳含量。2194的最佳极限抗拉强度(U.T.S) 在250°C的最低温度下,常规等温淬火样品达到了MPa,而1753的最佳屈服强度(Y.S.) 在阶跃等温淬火样品中,最初在250°C下,然后在300°C下达到MPa。一般来说,两步等温淬火工艺导致更高的屈服强度,同时根据等温淬火温度影响极限抗拉强度和总伸长率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of two-step austempering at different temperatures on mechanical and microstructural properties of AISI 9254 high silicon steel
ABSTRACT This study was undertaken to understand the effects of two-step austempering treatment on an AISI 9254 high silicon steel towards tailoring the properties as desired while simultaneously employing the benefits of high and low austempering temperatures. The samples were initially austenitized at 850°C for 20 min, followed by austempering in a salt bath at the temperatures of 250–270–290°C for 20 min during the first stage. Subsequently, a second stage austempering was carried out by raising the temperature of the salt bath to 300°C at an average heating rate of 0.5°C/min, and the samples were kept in the salt bath for achieving a total austempering time of 120 min including the heating time. A conventional single-stage austempering was also conducted for comparison purposes, in which the austenitization temperature, the austempering temperatures and total time (stage I and stage II, i.e. 120 min) were kept the same for the benchmark samples. In the characterization studies, tensile test, hardness test, XRD analysis, optical microscope and field emission-scanning electron microscope (FE-SEM) equipped with EBSD detector were utilized. The findings of this study indicated that lowering the austempering temperature resulted in refining the structure with a decrease in the amount of austenite. According to the carbon content analysis through XRD patterns, the two-step austempering processes appeared to have considerably increased the carbon content of the austenite irrespective of austempering temperature. The best ultimate tensile strength (U.T.S) of 2194 MPa was achieved in the conventionally austempered sample at the lowest temperature of 250°C, while the best yield strength (Y.S.) of 1753 MPa was reached in the stepped austempered sample initially at 250°C followed by 300°C. In general, two-step austempering process led to a higher yield strength while affecting the ultimate tensile strength and total elongation depending on the austempering temperature.
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来源期刊
Ironmaking & Steelmaking
Ironmaking & Steelmaking 工程技术-冶金工程
CiteScore
3.70
自引率
9.50%
发文量
125
审稿时长
2.9 months
期刊介绍: Ironmaking & Steelmaking: Processes, Products and Applications monitors international technological advances in the industry with a strong element of engineering and product related material. First class refereed papers from the international iron and steel community cover all stages of the process, from ironmaking and its attendant technologies, through casting and steelmaking, to rolling, forming and delivery of the product, including monitoring, quality assurance and environmental issues. The journal also carries research profiles, features on technological and industry developments and expert reviews on major conferences.
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