Study the Effect of Quenching and Tempering Conditions on the Fatigue Coefficients for Low Carbon Steel

Basrah journal for engineering science Pub Date : 2022-12-24 DOI:10.33971/bjes.22.2.5

Azzam D. Hassan, S. Almtori, Atef Nema

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Abstract

Four groups of AISI 1020 specimens were heat-treated at 850 °C in a muffle furnace for 30 minutes then quenched in oil. The samples were tempered at 400 °C with a time period for each group as (group B, 2 hours), (group C, 3 hours), and (group D, 4 hours). The mechanical properties of the samples were studied using universal tensile testing equipment and a Brinell hardness testing machine. The hardness values of the quenched samples were calculated from a given modified equation. The torsional fatigue behavior of AISI 1020 was discovered in this investigation for heat-treated specimens and compared with the original specimens. All groups were subjected to an analysis using an optical microscope. Pearlite is formed when is heated in the austenitic region and then cooled below a lower critical temperature. It was concluded that the heat treatment increases the hardness for the specimens while decreased the shear fatigue ductility coefficient. Also, the heat treatment increased the shear fatigue strength coefficient. Furthermore, increasing in the time period of the tempering process was leaded to decrease the coefficient of shear fatigue strength and increased the coefficient of shear fatigue ductility.

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研究淬火和回火条件对低碳钢疲劳系数的影响

四组AISI 1020试样在马弗炉850℃下热处理30分钟，然后用油淬火。样品在400°C下回火，每组的时间为(B组，2小时)，(C组，3小时)，(D组，4小时)。采用万能拉伸试验装置和布氏硬度试验机对试样的力学性能进行了研究。根据修正后的公式计算了淬火试样的硬度值。通过对热处理试样的研究，发现了aisi1020的扭转疲劳行为，并与原始试样进行了比较。所有组均采用光学显微镜进行分析。珠光体是在奥氏体区加热，然后冷却到较低的临界温度以下时形成的。结果表明，热处理提高了试样的硬度，降低了试样的剪切疲劳延性系数。同时，热处理提高了剪切疲劳强度系数。随着回火时间的增加，抗剪疲劳强度系数降低，抗剪疲劳延性系数增大。

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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Basrah journal for engineering science

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