Low temperature heat treatment of steel and the effect of quenching on the strength and oxidation behaviour

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
A. Araoyinbo
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Abstract

Mild steel is widely used in the engineering field because of its low carbon content that is often ductile and machinable. However, mild steel despite its hardness properties when exposed to corrosion mediums easily corrodes. This study investigates the effect of mild steel quenching after different heat treatment procedures and later exposed to corrosion environment (sodium chloride solution) to observe the corrosion behaviour of the metal. The mild steel samples were cut into dimensions of 75 mm x 25 mm x 4.5 mm and heat treated at temperatures of 100 ° C, 300 ° C, and 500 ° C, and quenched in both water and oil mediums. The temperature applied to the mild steel is expected to produce a phase structure in the pearlite region, and thereby improving its properties. The quenching medium influenced the microstructure of the mild steel, the hardness values as well as the corrosion resistant capabilities of the metal. The mechanical properties were tested using ultimate testing machine and Rockwell hardness Tester. Data obtained from this research, shows that the samples heat treated, water, and oil quenched all showed improved properties. It was observed that the percentage elongation for oil quenched at 100 °C, 300 °C, and 500 °C is 18.5 %, 14.1 %, and 12.4 % which is higher than water quenched which recorded 16.7 %, 12.3 %, and 9.8 % but the reverse was the results obtained for the other mechanical properties. The optical microscopy was used to observe surface morphology when the surface is exposed to the corrosion medium. It was observed that the oil quenched samples experience the lowest weight loss when compared to water quenched samples, and the as received sample had the highest weight loss. This shows that heat treatment and quenching provides some form of protection for the mild steel samples.
钢的低温热处理及淬火对强度和氧化行为的影响
软钢由于其低碳含量,通常具有延展性和可加工性,在工程领域中得到了广泛应用。然而,尽管软钢具有硬度特性,但当暴露在腐蚀介质中时,它很容易腐蚀。本研究调查了低碳钢在不同热处理程序后淬火以及随后暴露在腐蚀环境(氯化钠溶液)中的影响,以观察金属的腐蚀行为。低碳钢样品被切割成75 mm x 25 mm x 4.5 mm的尺寸,并在100°C、300°C和500°C的温度下进行热处理,并在水和油介质中淬火。施加在软钢上的温度预计会在珠光体区域产生相结构,从而改善其性能。淬火介质影响低碳钢的微观结构、硬度值以及金属的耐腐蚀能力。采用极限试验机和洛氏硬度计对其力学性能进行了测试。从这项研究中获得的数据表明,热处理、水和油淬火的样品都显示出改善的性能。观察到,在100°C、300°C和500°C下油淬火的伸长率分别为18.5%、14.1%和12.4%,高于水淬火的16.7%、12.3%和9.8%,但其他机械性能的结果相反。当表面暴露于腐蚀介质时,使用光学显微镜观察表面形态。观察到,与水淬火的样品相比,油淬火的样品经历最低的重量损失,并且收到的样品具有最高的重量损失。这表明热处理和淬火为低碳钢样品提供了某种形式的保护。
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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76
审稿时长
40 weeks
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