车削过程中冷却剂种类对表面粗糙度的影响

K. Alharbi, Tarki Jufayn Z. Alotaibi
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引用次数: 0

摘要

为了减少在车削过程中刀具和工件之间形成的摩擦,使用了各种冷却剂。每种冷却剂都有优点和缺点。所用冷却液的种类直接影响工件表面的光滑或粗糙程度。本研究采用了两种常用的冷却剂。乳化液是90%的水和10%的油的混合物。第一次操作使用了这种冷却剂。第二道工序采用合成油作为冷却剂。第三个程序,称为干式操作,不使用冷却剂来比较各种类型。在这三种类型的作业中,使用了相同的工具和条件,每种作业都有30个工件。为了获得结果,每个样品都使用表面粗糙度测试仪进行评估。这项研究的结果表明,当涉及到表面粗糙度时,乳液操作是最好的冷却剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE INFLUENCE OF COOLANT TYPES ON SURFACE ROUGHNESS IN THE TURNING PROCESS
To lessen the friction that forms between the tool and the workpiece during the turning process, a variety of coolants are utilized. Each coolant type has benefits and drawbacks. The kind of coolant used directly affects how smooth or rough the surface of workpiece is. Two popular types of coolants were employed in this investigation. Emulsion is a mixture of 90% water and 10% oil. The first operation employed this kind of coolant. For the second procedure, synthetic oil is employed as coolant. The third procedure, known as a dry operation, uses no coolant to compare various types. The identical tools and conditions were utilized in all three types of operations to create 30 pieces of work for each. To obtain the results, each sample was evaluated using a surface roughness tester. The findings of this investigation indicated that when it comes to surface roughness, emulsion operations are the best coolant to employ.
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