研究了轧辊硬度对抛光后AISI 1211钢表面性能的影响

Q3 Engineering

International Journal of Computational Materials Science and Surface Engineering Pub Date : 2020-05-22 DOI:10.1504/ijcmsse.2020.10029643

A. Arulbrittoraj, A. Gurumoorthy, S. Karthikeyan, M. Duraiselvam

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引用次数: 0

摘要

本工作旨在研究辊硬度对AISI 1211抛光钢表面质量的影响。采用具有未处理和深冷处理条件的高速钢辊进行辊抛光。在−180°C的温度下，在液氮浴中进行36小时的低温处理，然后在200°C下回火6小时。轧辊抛光采用数控车削中心。表面质量是根据表面粗糙度和硬度来测量的，与三个不同车削参数（即主轴速度、进给速度和穿透深度）的函数相对应。深冷处理辊的平均硬度从380Hv0.5增加到625Hv0.5。结果表明，提高主轴转速会显著影响表面光洁度，而增加轧辊穿透深度会增加AISI 1211钢表面的硬度。与未经处理的轧辊相比，经过低温处理的轧辊在AISI 1211钢样品上提供了更好的表面光洁度和硬度。

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Study the effect of roller hardness on the surface properties of burnished AISI 1211 steel

This work aims to study the effect of roller hardness on the surface quality of AISI 1211 burnished steel surfaces. High-speed-steel rollers with untreated and cryogenic treated conditions are employed for roller burnishing. Cryogenic treatment is carried out at the temperature of −180°C for 36 hours in a liquid nitrogen bath followed by tempering at 200°C for six hours. CNC turning centre is employed for roller burnishing. The surface quality is measured in terms of surface roughness and hardness against the function of three different turning parameters namely spindle speed, feed rate and depth of penetration. The average hardness of cryogenic treated rollers is increased from 380 Hv0.5 to 625 Hv0.5. The results revealed that increasing the spindle speed significantly affected the surface finish and increase in roller penetration depth increases the hardness of AISI 1211 steel surfaces. Cryogenic treated rollers provide better surface finish and hardness on the AISI 1211 steel samples than untreated rollers.

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来源期刊

International Journal of Computational Materials Science and Surface Engineering Engineering-Engineering (all)

CiteScore

1.20

自引率

0.00%

发文量

期刊介绍： IJCMSSE is a refereed international journal that aims to provide a blend of theoretical and applied study of computational materials science and surface engineering. The scope of IJCMSSE original scientific papers that describe computer methods of modelling, simulation, and prediction for designing materials and structures at all length scales. The Editors-in-Chief of IJCMSSE encourage the submission of fundamental and interdisciplinary contributions on materials science and engineering, surface engineering and computational methods of modelling, simulation, and prediction. Papers published in IJCMSSE involve the solution of current problems, in which it is necessary to apply computational materials science and surface engineering methods for solving relevant engineering problems.