铣削 TiBbm2 粒子强化高模量钢

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS
Hideharu Kato, Kazuya Matsumoto, Yukio Ito, Shigehiko Sakamoto, Hitoshi Sumiya
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引用次数: 0

摘要

TiB2 粒子增强高刚度钢是一种复合材料,旨在通过将 TiB2 粒子与不锈钢基相复合来提高杨氏模量。与传统的铁基材料相比,这种材料以 TiB2 粒子为增强相,具有更高的刚度和强度,有望减轻发动机中高负载部件的重量。因此,在加工这种材料时,刀具寿命非常短。因此,众所周知,含有 TiB2 颗粒的高杨氏模量钢是最难切削的材料之一。本研究旨在探讨如何在铣削高杨氏模量钢时延长刀具寿命。通过使用硬度和抗弯强度极佳的无粘结剂 CBN 刀具进行端铣,研究了刀具寿命与切削速度的关系。此外,还研究了刀具的损坏机理。结果表明,与传统的 CBN 刀具相比,由无粘结剂 CBN 刀具组成的刀具寿命更长。在这种无粘结剂 CBN 刀具中,刀具磨损率随着切削速度的增加而增加。此外,在切削速度为 1.25 米/秒时,刀具寿命最长,但在边界切削长度为 1300 米时,磨损率增加。温度测量结果表明,刀具损坏的主要原因是机械磨损,因为 cBN 和铁之间的反应温度太低。摩擦测试显示,刀具上的划痕是由切削刃破碎产生的碳化硼颗粒造成的。这表明,碳化硼粉末与刀刃面摩擦产生的高摩擦能加速了磨损。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Milling of TiBbm2 Particle Reinforced High-Modulus Steel
TiB2 particle reinforced high-stiffness steel is one of the composite materials that aim to improve Young’s modulus by compositing TiB2 particles into a stainless steel base phase. This material is designed to exhibit higher rigidity and strength than conventional iron-based materials by using TiB2 particles as the reinforcing phase, and is expected to reduce the weight of high-load components in engines. For this reason, tool life is very short when machining this material. Therefore, high Young’s modulus steel containing TiB2 particles is known to be one of the most difficult-to-cut materials. The purpose of this study was to investigate how to extend tool life in the milling of high-Young’s-modulus steel. Cutting speed dependence of tool life was investigated by end milling using a binderless CBN tool with excellent hardness and bending strength. In addition, the tool damage mechanism was also investigated. The results showed that tools composed of binderless CBN tool have a longer life than conventional CBN tool. In this type of binderless CBN tool, the tool wear rate tended to increase with increasing cutting speed. In addition, the longest tool life was obtained at a cutting speed of 1.25 m/s, though wear rate increased at a boundary cutting length of 1300 m. The wear rate was found to increase with increasing cutting speed. Temperature measurement results indicate that the primary cause of tool damage was mechanical wear, as the temperatures were much too low for a reaction between cBN and Fe. Friction tests revealed scratch marks on the tool originating from crushed cBN particles produced by the crushing of the cutting edge. This indicates that wear is accelerated by the high frictional energy of the cBN powder rubbing against the flank face.
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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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