Study on highly efficient machining by small-diameter radius end mill -cutting efficiency of face cutting and side cutting in high speed milling

Hisaaki Nakai, Yuki Iida, Takekazu Sawa, Masahiro Anzai

研究成果: Article

抄録

This study aimed to improve the efficiency of mold processing with high-speed milling and to collect basic data on high-speed milling In this work, we used a milling machine with maximum cutting speed of 160,000 min'1 and maximum feed speed of 15,000 mnVmin along with a small diameter end mill to examine tool wear and machining characteristics when the product of axial depth of cut and pick feed as well as the removal rate were constant. We further compared machining efficiencies for surface and side grinding The results showed that in high-speed milling, tool wear and surface roughness obtained in face cutting were lesser than that obtained in side cutting; thus, surface grinding was more effective.

元の言語English
ページ(範囲)365-373
ページ数9
ジャーナルSeimitsu Kogaku Kaishi/Journal of the Japan Society for Precision Engineering
85
発行部数4
DOI
出版物ステータスPublished - 2019 1 1

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Milling (machining)
Machining
Wear of materials
Milling machines
Surface roughness
Processing

ASJC Scopus subject areas

  • Mechanical Engineering

これを引用

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T1 - Study on highly efficient machining by small-diameter radius end mill -cutting efficiency of face cutting and side cutting in high speed milling

AU - Nakai, Hisaaki

AU - Iida, Yuki

AU - Sawa, Takekazu

AU - Anzai, Masahiro

PY - 2019/1/1

Y1 - 2019/1/1

N2 - This study aimed to improve the efficiency of mold processing with high-speed milling and to collect basic data on high-speed milling In this work, we used a milling machine with maximum cutting speed of 160,000 min'1 and maximum feed speed of 15,000 mnVmin along with a small diameter end mill to examine tool wear and machining characteristics when the product of axial depth of cut and pick feed as well as the removal rate were constant. We further compared machining efficiencies for surface and side grinding The results showed that in high-speed milling, tool wear and surface roughness obtained in face cutting were lesser than that obtained in side cutting; thus, surface grinding was more effective.

AB - This study aimed to improve the efficiency of mold processing with high-speed milling and to collect basic data on high-speed milling In this work, we used a milling machine with maximum cutting speed of 160,000 min'1 and maximum feed speed of 15,000 mnVmin along with a small diameter end mill to examine tool wear and machining characteristics when the product of axial depth of cut and pick feed as well as the removal rate were constant. We further compared machining efficiencies for surface and side grinding The results showed that in high-speed milling, tool wear and surface roughness obtained in face cutting were lesser than that obtained in side cutting; thus, surface grinding was more effective.

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KW - High-speed milling

KW - Radius end mill

KW - Surface roughness

KW - Tool wear

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