放電加工における加工液超音波振動援用の効果(第1報) : 超音波振動援用微細穴あけ加工に関する研究

小川 仁, 板東 和宏, 常本 佳生
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引用次数: 5

Abstract

Micromachining technologies have been developed to enhance functionality in limited space and to save materials and energy. Micro-electrical discharge machining (EDM) is one of the micro processing methods. The machining efficiency, however, decreases as hole depth increases because the discharge phenomena become unstable owing to sludge stagnation. In this paper, we propose a new EDM method that applies ultrasonic vibration in machining fluid. Cavitation generated in a hole does not only break down air bubbles in EDM but also quickens the sludge removal. The EDM characteristics in terms of parameters such as machining rate, aspect ratio, and hole appearance are investigated in comparison with those of conventional EDM. The machining rate and aspect ratio rise by a factor of about 2 and the electrode wear ratio is about 2/3 the conventional value in the micro-EDM of sintered carbide.
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放电加工中的加工液超声波振动援用的效果(第1报):关于超声波振动援用微钻孔加工的研究
微加工技术的发展是为了在有限的空间内增强功能,节省材料和能源。微细电火花加工(EDM)是一种微细加工方法。然而,随着孔深的增加,加工效率降低,因为污泥的滞留使放电现象变得不稳定。本文提出了一种利用超声振动加工流体的电火花加工新方法。在孔中产生的空化不仅可以分解电火花加工中的气泡,而且可以加快污泥的去除速度。与传统电火花加工相比,研究了电火花加工在加工速率、长径比和孔外观等参数方面的特性。在烧结硬质合金微细电火花加工中,加工速率和长径比提高了约2倍,电极磨损率约为常规值的2/3。
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