J. Peterka, Wallyson Thomas De Silva, R. Straka, T. Vopát, Jakub Hrbál, M. Kritikos
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For the experiments, heat-treated DIN EN 1.2842 (ISO 90MnCrV8) steel with 58 HRC of hardness was submitted to boring process using CBN (cubic boron nitride) inserts, and a boring bar with the most possible rigid clamping system (Easy Fix). The workpiece roughness and circularity were measured using a profilometer and a form error measuring machine. The measurements provided the data to identify the boring bar levels of stability, and the workpiece micro and macro geometric errors. The experiments allowed to conclude that, for all toolbars, the evaluated errors kept constant with increasing L/D ratio during stable clamping conditions, without any vibration. On the other hand, higher values of overhangs, limited to L/D>4.25 for steel tool, can cause serious damages in the cutting system if the antivibration tools or the carbide will be not used.","PeriodicalId":21013,"journal":{"name":"Research Papers Faculty of Materials Science and Technology Slovak University of Technology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2022-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Analysis of form Error and Roughness of Hardened Steel Workpieces Internally Turned with Different Tools in Long Overhangs\",\"authors\":\"J. Peterka, Wallyson Thomas De Silva, R. Straka, T. Vopát, Jakub Hrbál, M. Kritikos\",\"doi\":\"10.2478/rput-2022-0003\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract Internal turning process is a very important and widely used process for enlarging and finishing holes. Especially for the components that work with external members, this operation needs to assure surface and geometric quality. In that case, the correct definition of working parameters will directly contribute to the quality of component. Aim of the current research was to analyse the form error and the roughness of workpieces submitted to internal turning process using boring bars in long overhangs with three different internal tools (steel, carbide and antivibrating tool). For the experiments, heat-treated DIN EN 1.2842 (ISO 90MnCrV8) steel with 58 HRC of hardness was submitted to boring process using CBN (cubic boron nitride) inserts, and a boring bar with the most possible rigid clamping system (Easy Fix). The workpiece roughness and circularity were measured using a profilometer and a form error measuring machine. The measurements provided the data to identify the boring bar levels of stability, and the workpiece micro and macro geometric errors. The experiments allowed to conclude that, for all toolbars, the evaluated errors kept constant with increasing L/D ratio during stable clamping conditions, without any vibration. 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引用次数: 2
摘要
内车削加工是一种非常重要且应用广泛的扩孔精加工工艺。特别是对于与外部构件一起工作的部件,这种操作需要保证表面和几何质量。在这种情况下,工作参数的正确定义将直接影响到零件的质量。当前研究的目的是分析长悬挑镗杆在三种不同的内刀具(钢、硬质合金和防震刀具)下进行内车削加工时的形状误差和工件粗糙度。在实验中,热处理过硬度为58 HRC的DIN EN 1.2842 (ISO 90MnCrV8)钢,使用CBN(立方氮化硼)刀片和具有最可能的刚性夹紧系统(Easy Fix)的镗杆进行镗削加工。采用轮廓仪和形状误差测量机对工件的粗糙度和圆度进行了测量。测量提供的数据,以确定镗杆的稳定水平,以及工件的微观和宏观几何误差。实验表明,在稳定的夹紧条件下,在没有任何振动的情况下,所有工具条的评估误差都随着L/D比的增加而保持不变。另一方面,如果不使用减振工具或硬质合金,较高的悬垂值(钢刀具的L/D>4.25)会对切削系统造成严重损害。
Analysis of form Error and Roughness of Hardened Steel Workpieces Internally Turned with Different Tools in Long Overhangs
Abstract Internal turning process is a very important and widely used process for enlarging and finishing holes. Especially for the components that work with external members, this operation needs to assure surface and geometric quality. In that case, the correct definition of working parameters will directly contribute to the quality of component. Aim of the current research was to analyse the form error and the roughness of workpieces submitted to internal turning process using boring bars in long overhangs with three different internal tools (steel, carbide and antivibrating tool). For the experiments, heat-treated DIN EN 1.2842 (ISO 90MnCrV8) steel with 58 HRC of hardness was submitted to boring process using CBN (cubic boron nitride) inserts, and a boring bar with the most possible rigid clamping system (Easy Fix). The workpiece roughness and circularity were measured using a profilometer and a form error measuring machine. The measurements provided the data to identify the boring bar levels of stability, and the workpiece micro and macro geometric errors. The experiments allowed to conclude that, for all toolbars, the evaluated errors kept constant with increasing L/D ratio during stable clamping conditions, without any vibration. On the other hand, higher values of overhangs, limited to L/D>4.25 for steel tool, can cause serious damages in the cutting system if the antivibration tools or the carbide will be not used.