Akihito Miyake scite author profile

LFV is one of effective machining technologies to break long and continuous chips in the turning process. LFV technology stands for low frequency vibration cutting. Vibration in the tool feed direction is applied in LFV and it is synchronously controlled with the spindle rotation. When the machined surface is focused on, characteristic surface patterns are formed in LFV turning process because of the tool vibration in feed direction. In this paper, a simulation technique to visualize the surface profile generated on the cutting process with LFV was developed. By visualizing the surface shape and contour shape, it is possible to clarify its features and calculate the surface roughness and roundness. During LFV operation, unlike conventional turning with constant feed rate, a cutting edge moves on the machined surface while vibrating in feed direction; hence characteristic patterns are formed by the uncut portion corresponding to the crossing cutter marks depending on the vibration conditions. The influence of such characteristic patterns on the surface roughness and the contour profile was clarified in detail. In addition, the vibration condition which can minimize roundness of the machined object was identified by using the developed simulation. Then the contour profile of the machined parts during LFV operation could be controlled.

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Effect of low frequency vibration applied to feed direction on turning process

Miyake

Sasahara

Kitakaze

et al. 2016

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Influence on surface characteristics generated in Low Frequency Vibration Cutting

Miyake

Kitakaze

Katoh

et al. 2018

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Akihito Miyake

Chip control in turning with synchronization of spindle rotation and feed motion vibration

Influence on surface characteristics generated in Low Frequency Vibration Cutting

Effect of low frequency vibration applied to feed direction on turning process

Influence on surface characteristics generated in Low Frequency Vibration Cutting

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