EN-31模具钢混粉近干电火花加工显微硬度试验研究

IF 1.2 4区工程技术 Q3 ENGINEERING, MECHANICAL

Strojniski Vestnik-Journal of Mechanical Engineering Pub Date : 2020-03-15 DOI:10.5545/sv-jme.2019.6474

S. Sundriyal, Vipin, R. S. Walia

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引用次数: 5

摘要

与传统的电火花加工不同，粉末混合近干放电加工(PMND-EDM)方法在加工速度、表面形貌和环境友好性方面都被证明是有效的。在本研究中，电介质中导电金属粉末(锌)的存在会改变工件的形貌(EN-31)，并导致加工部件的显微硬度值更高。本研究采用田口L9正交阵列(Taguchi L9 orthogonal array, OA)对重要工艺参数进行优化，得到具有较高显微硬度(以维氏硬度HV衡量)的加工部件。选择的工艺参数为刀具直径、雾流量、金属粉末浓度和介电雾压力。通过引入外来颗粒(金属粉末)，改善了加工产品的形貌，提高了显微硬度值。对最佳工艺参数进行了验证实验，加工后的EN-31模具钢的显微硬度值为506.63 HV。

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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Experimental Investigation of the Micro-hardness of EN-31 Die Steel in a Powder-Mixed Near-Dry Electric Discharge Machining Method

The Powder-Mixed Near-Dry Electric Discharge Machining (PMND-EDM) methodology has proven to be efficient in terms of machining rate, surface morphology, and environmental friendliness, unlike traditional EDM. In this study, the presence of a conductive metallic powder (zinc) in the dielectric medium was responsible for changing the topography of the workpiece (EN-31) and resulted in a higher micro-hardness value of the machined component. In this research, an approach has been made to optimize the significant process parameters by using a Taguchi L9 orthogonal array (OA) to obtain machined components with higher values of micro-hardness, which was measured in terms of Vickers hardness HV. The selected process parameters were tool diameter, mist flow rate, metallic powder concentration, and dielectric mist pressure. By introducing foreign particles (metallic powder), the topography of the machined products has been improved, and the micro-hardness value was found to be enhanced. The confirmation experiment was performed for optimal process parameter settings, and the enhanced microhardness value was found to be 506.63 HV in the machined EN-31 die steel.

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来源期刊

Strojniski Vestnik-Journal of Mechanical Engineering 工程技术-工程：机械

CiteScore

3.00

自引率

17.60%

发文量

审稿时长

4.1 months

期刊介绍： The international journal publishes original and (mini)review articles covering the concepts of materials science, mechanics, kinematics, thermodynamics, energy and environment, mechatronics and robotics, fluid mechanics, tribology, cybernetics, industrial engineering and structural analysis. The journal follows new trends and progress proven practice in the mechanical engineering and also in the closely related sciences as are electrical, civil and process engineering, medicine, microbiology, ecology, agriculture, transport systems, aviation, and others, thus creating a unique forum for interdisciplinary or multidisciplinary dialogue.