Effect of Different Feed Rates on Chip Evacuation in Drilling of Lead-Free Brass with a Small-Diameter Drill

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS
Tadaaki Naruki, Kenichi Suzuki, Hideharu Kato, Shigehiko Sakamoto, Masahiro Seto, Jin Katayama, Takayuki Oka
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Abstract

Free-cutting brass is a material whose machinability is improved by the addition of lead. It is used in a wide range of applications because of its high electrical conductivity and antibacterial properties. However, the use of lead is restricted by laws and regulations to reduce environmental damage. Therefore, the lead in free-cutting brass is being replaced by bismuth or silicon. The machinability of lead-free brass, improved by these additives, has been confirmed to be sufficient for milling and turning. However, when drilling deep small-diameter holes in leadless brass, the problem of premature drill breakage occurs due to chips clumping and clogging in the drill flutes. In a previous study, drilling of holes with an aspect ratio of nine was performed using a 1.0 mm diameter cemented carbide drill, and it was confirmed that the addition of trace elements improved the chip breaking and chip evacuation. However, the waveform of thrust force during machining demonstrated a decreasing trend, and the original machining conditions were not attained. In this study, the effect of feed rate on chip evacuation was investigated using a 0.5 mm diameter twist drill, which is subject to severe chip evacuation at high cutting speeds. As a result of examining chip evacuation by varying the feed rate, the chip evacuation exhibited good performance; where bellows-like chips were evacuated under a slow feed rate, and long-pitch chips were evacuated under a high feed rate. In the drilling process using these feed rates with good chip evacuation, 10,000 holes could be drilled, but the shape of the top of the hole was distorted and the straightness was poor at a slow feed rate. In contrast, hole accuracy was good at a high feed rate, further indicating that a high feed rate with long-pitch-shaped chip evacuation is effective for high efficiency when drilling deep holes of small diameters.
使用小直径钻头钻削无铅黄铜时不同进给速度对切屑排出的影响
易切削黄铜是一种通过添加铅来提高加工性能的材料。由于它具有高导电性和抗菌性,因此应用广泛。然而,为了减少对环境的破坏,铅的使用受到法律法规的限制。因此,易切削黄铜中的铅正被铋或硅所取代。经证实,这些添加剂改善了无铅黄铜的可加工性,足以满足铣削和车削的需要。然而,在无铅黄铜上钻小直径深孔时,由于切屑在钻槽中结块和堵塞,会出现钻头过早断裂的问题。在之前的一项研究中,使用直径为 1.0 毫米的硬质合金钻头对长径比为 9 的孔进行了钻削,结果证实,添加微量元素可改善断屑和排屑效果。然而,加工过程中的推力波形呈下降趋势,无法达到原始加工条件。本研究使用直径为 0.5 毫米的麻花钻研究了进给量对排屑的影响,这种钻头在高速切削时会出现严重的排屑现象。通过改变进给速度来检查排屑情况,排屑效果良好;在慢进给速度下,波纹管状切屑被排出,而在高进给速度下,长间距切屑被排出。在钻孔过程中,使用这些进给速度和良好的排屑效果,可以钻出 10,000 个孔,但在进给速度较慢时,孔顶的形状会变形,直线度较差。相比之下,高进给率下的孔精度较好,这进一步表明,在钻小直径深孔时,高进给率和长间距排屑可有效实现高效率。
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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