Vibratory working effectiveness increase through working environment combination

Author:

Tamarkin Mihail1,Kolganova Elena1,Korol'kov Yuriy1,Troickiy Viktor1

Affiliation:

1. Don State Technical University

Abstract

The peculiarities in vibratory working effectiveness increase through the combination of the kind and grain-metrical characteristics of working environment are considered, outlooks and advantages of this kind of working are emphasized.

Publisher

Bryansk State Technical University BSTU

Reference6 articles.

1. Tamarkin, M.A., Tishchenko, E.E., Shvedova, A.S. Optimization of Dynamic Surface Plastic Deformation in Machining // Russian Engineering Research. – 2018. – № 38 (9). – PP. 726-727., Tamarkin, M.A., Tishchenko, E.E., Shvedova, A.S. Optimization of Dynamic Surface Plastic Deformation in Machining // Russian Engineering Research. – 2018. – № 38 (9). – PP. 726-727.

2. Тамаркин, М.А., Колганова, Е.Н., Ягмуров, М.А. Обоснование гранулометрических характеристик рабочей среды при вибрационной обработке деталей с малыми пазами и отверстиями // Advanced Engineering Research. – 2020. – № 20 (4). – С. 382-389, Tamarkin, M.A., Kolganova, E.N., Yagmurov, M.A. Substantiation of working environment grain-metrical charac-teristics at vibratory working parts with small grooves and holes // Advanced Engineering Research. – 2020. – No.20(4). – PP. 382-389.

3. Лебедев, В.А., Крупеня, Е.Ю., Шишкина, А.П. Повышение эффективности вибрационной отделочной обработки деталей на основе применения сред органического происхождения. – Прогрессивные машиностроительные технологии, оборудование и инструменты: кол. моногр. / под ред. А.Н. Киричика. – М.: Спектр, 2015. – Т. 6. – С. 268-326., Lebedev, V.A., Krupenya, E.Yu., Shishkina, A.P. Effectiveness increase in parts vibratory finishing based on use of environments of organic origin. – Updated Engineering Techniques, Equipment and Tools: group monograph / under the editorship of A.N. Kirichek. – M.: Spectrum, 2015. – Vol. 6. – PP. 268-326.

4. Antonova, N.M., Shorkin, V.S., Romashin, S.N. Adhesion of a vibration mechanochemical solid-lubricant MoS(2) coating // Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques. – 2019. – Vol. 13 (5). – PP. 848-854., Antonova, N.M., Shorkin, V.S., Romashin, S.N. Ad-hesion of a vibration mechanochemical solid-lubricant MoS(2) coating // Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques. – 2019. – Vol. 13 (5). – PP. 848-854.

5. Теория вероятности в решении технологических задач (на примере вибрационной обработки в гранулированных средах) / А.П. Бабичев и др. – Ростов н/Д: Изд. центр ДГТУ, 2013. – 126 с., Probability Theory in Solution of Technological Prob-lems (by example of vibratory working in granulated environ-ments) / A.P. Babichev et al. – Rostov-upon-Don: Publishing Center of DSTU, 2013. – PP. 126.

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