Abstract
This paper presents the research results on vibration abrasive processing of particularly accurate parts. The peculiarities of processing technologies and theoretical results are identified. The research shows that intensity of vibration processing depends on modes and duration of treatment, characteristics and sizes of working medium particles, working chamber volume and its filling degree, volume ratio of processed parts and abrasive granules, mechanical properties of the processed part material and their mass. Single trace parameters are defined. The formula for calculation of maximum depth of medium particle penetration into the surface of the machined part is presented. Trace parameters of medium particle interaction with the part surface are set. Metal removal, surface roughness and processing time are determined to solve various technological problems. The experimental results of vibration processing of particularly accurate details confirm the adequacy of theoretical dependencies. The samples from various materials are used for the experimental studies, the accuracy of which corresponds to 6–8 degree. The comparative results of theoretical and experimental studies show that the discrepancy does not exceed 20%, which indicates the adequacy of the obtained theoretical models. The methodology of designing the vibration processing technology of particularly precise parts is applied in the engineering enterprises.
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Tamarkin, M., Tishchenko, E., Murugova, E. (2022). Design of High Precision Machining Part Processes in Free Abrasives. In: Shamtsyan, M., Pasetti, M., Beskopylny, A. (eds) Robotics, Machinery and Engineering Technology for Precision Agriculture. Smart Innovation, Systems and Technologies, vol 247. Springer, Singapore. https://doi.org/10.1007/978-981-16-3844-2_17
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DOI: https://doi.org/10.1007/978-981-16-3844-2_17
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