回火法和调火法处理热轧钢板对维氏硬度值提高的影响分析

A. Taufik, P. Pratikto, A. Suprapto, A. A. Sonief
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引用次数: 0

摘要

本文想了解弯曲半径对弯曲、淬火、回火后拉伸应力和压应力表面积上的硬度分布、晶粒分布和显微组织的影响。材料测试有助于确定和分析材料质量。研究了热轧钢板材料在半径为50mm、55mm、60mm、65mm和70mm,测量距离为1mm、2mm和3mm时的弯曲量,在半径为55mm,测量距离为1mm时弯曲量最大。经保温时间为30分钟的调质处理后,在半径为70 mm、测量距离为2 mm处得到498 HV的值。采用奥氏体温度为900°С进行硬度测试,显微组织测试结果表明,在压缩区r=2.173µm和拉伸区r=2.34µm处均有较细的晶粒。该观察旨在确定在900°С温度下,使用水冷介质保温30分钟的热处理过程中材料的微观结构。对试样组织的观察结果表明,淬火前的铁素体组织比珍珠岩组织丰富,而淬火后由于奥氏体的存在,珍珠岩组织比铁素体组织多。Ar3线的相变处理使硬度改变为马氏体组织的形状,而淬火试样表面渗碳层的厚度随着渗碳温度的升高而增加,导致马氏体和残余奥氏体的形成,使涂层变硬。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of the Influence of Hot Rolled Plate Steel Treatment Using Temper and Quench-Temper Method on Vickers Hardness Number Enhancement
This paper wants to know the effect of bending radius on the distribution of hardness, grain distribution and microstructure on the surface area of tensile stress and compressive stress after bending, quenching and tempering. Material testing helps determine and analyze material quality. The research was conducted on the bending of Hot Rolled Plate Steel material with a radius of 50 mm, 55 mm, 60 mm, 65 mm and 70 mm with a measurement distance of 1 mm, 2 mm and 3 mm, the highest value was obtained at a radius of 55 mm with a measurement distance of 1 mm. After getting the quench-temper treatment with a holding time of 30 minutes, the value of 498 HV was obtained at a radius of 70 mm with a measurement distance of 2 mm. Hardness test was performed using the austenite temperature of 900 °С, microstructure test results obtained finer grains in the compression area r=2.173 µm and in the tensile area r=2.34 µm. This observation aims to determine the microstructure of the material undergoing a heat treatment process at a temperature of 900 °С with a holding time of 30 minutes using water cooling media. The results of the observation of the microstructure of the test specimens before the quench-temper process showed that the structure of ferrite was more abundant than perlite, but after the quench-tempering process the results showed that there was more perlite than ferrite due to the presence of austenite. The treatment on the transformation of the Ar3 line causes the hardness to change the shape of the martensite microstructure into steel while the thickness of the carburizing layer increases with the increase in the carbonization temperature on the surface of the quenched specimen, resulting in the formation of martensite and residual austenite causing the coating to become hard.
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