Effect of Quenching Medium and Tempering Temperature on Microstructure and Hardness of JIS SUP 9 Steel

Andrie Harmaji, A. Korda, Rama Ramadhan, S. Pambudi
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Abstract

JIS SUP 9 steel is one of the materials commonly used for suspension components in motorized vehicles with medium carbon steel base material. It must have good hardness and toughness so that failure does not occur during operational. This research was conducted to increase the hardness of JIS SUP 9 Steel through a heat treatment and various quenching media. The heat treatment was carried out with 830-880ºC temperature with a holding time of 7 minutes then cooled using water and oil. After treatment, tempering was carried out with a holding time of 7 minutes and then cooled in room temperature. Hardness testing was carried out using Microhardness Vickers and then the microstructure was observed using an Olympus Metallurgical Microscope. The results show that heat treatment followed by rapid cooling increases the initial hardness of JIS SUP 9 (229 VHN) steel. The decrease in hardness after the tempering process will be higher with increasing tempering temperature. The results of the microstructure of the sample without heat treatment showed pearlite and ferrite phases. After heat treatment, tempered martensite, residual austenite and carbide phases appear. It can be concluded that changes in the microstructure affect the hardness of JIS SUP 9 steel.
淬火介质和回火温度对JIS SUP 9钢组织和硬度的影响
JIS SUP 9钢是以中碳钢为基材的机动车辆悬架部件常用的材料之一。它必须具有良好的硬度和韧性,以便在操作过程中不会发生故障。本研究通过热处理和不同的淬火介质来提高JIS SUP 9钢的硬度。热处理温度为830-880℃,保温时间为7分钟,然后用水和油冷却。处理后回火,保温7分钟,室温冷却。采用显微维氏硬度仪进行硬度测试,并用奥林巴斯金相显微镜观察显微组织。结果表明,热处理后快速冷却可提高JIS SUP 9 (229 VHN)钢的初始硬度。随着回火温度的升高,回火后的硬度下降幅度更大。未经热处理的试样显微组织表现为珠光体和铁素体相。热处理后,出现回火马氏体、残余奥氏体和碳化物相。由此可见,显微组织的变化影响了JIS SUP 9钢的硬度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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