Improving of vibration resistance by boring on turning lathes
DOI:
https://doi.org/10.15587/2312-8372.2016.60271Keywords:
boring cutter, tool system, three-dimensional model, vibration resistance, amplitudeAbstract
This paper discusses the possibility of improving the quality of the machined surface by boring on the turning lathes due to the use of the tool system, which allows to reduce the level of vibration in the machining process.
The methods of mathematical and three-dimensional simulation and strength analysis by finite element method are applied in the study.
The proposed technique allowed us to obtain the mathematical model of vibratory displacement of the top of the boring cutter as the result of the action of variable forces and to develop a tool system design for reducing the vibration amplitude of the cutting tool by boring process.
The results of the research can be used in metal working when boring holes of sufficiently large diameter with large overhangs on turning lathes.
The proposed technical solution allows to reduce the level of vibration during boring process, that gives the opportunity to improve the quality of the machined surface and reduce the wear of the cutting tool.
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