Tula, Tula, Russian Federation
UDK 621.941-229.3 Устройства для установки, поддержания и закрепления обрабатываемых деталей. Передние бабки, шпиндели, патроны и т.д.
UDK 62-465 Полусферические, цилиндрические и подобные открытые полые предметы, например тигли, чаши, горшки, бутылки, бочки и т.д.
Designing techniques in turning op-erations for shell casings processing, is viewed. A structural and func-tional scheme of improve-ment practices for the technological conditions of shell casings mechanical processing and a con-ceptual model of the algorithm that can be implemented, including and specifically through modern digital technologies, are proposed.
classifier, algorithm, shell casings, fastening forces, cutting processing, defor-mations, cutting modes
1. Gavryushin S.S., Zhargalova A.D., Lazarenko G.P.,Semisalov V.I. Method of determining the conditions for ma-chining thin-walled parts. News of higher educational institu-tions. Mechanical engineering, 2015, no. 11 (668), pp. 53–61.
2. Dalsky A.M., Suslov A.G., Kosilov A.G., Mesh-cheryakov R.K. Spravochnik tehnologa-mashinostroitelya [A guide for industrial mechanic engineer] in 2 vol., vol. 2. Moscow, Mashinostroenie-1, 2001, 944 p. (in Russian).
3. Yamnikov A.S., Yamnikova O.A., Chuprikov A.O.,Matveev I.A. Elastic deformations of workpieces of hollow axisymmetric bodies when fastened in three-jaw chucks. Fer-rous metals, Moscow, 2018, no. 6 (1038), pp. 25–30.
4. Yamnikov A.S., Chuprikov A.O. Chucks for thin-walled blanks. Bulletin of Mechanical Engineering, 2015, no. 8, pp. 64–66.
5. Chuprikov A.O., Yamnikov A.S. Modeling of errorsin fixing thin-walled welded bodies in three-jaw chucks. Sci-ence-intensive technologies in mechanical engineering, Mos-cow, 2014, pp. 18–22.
6. Yamnikov A.S., Bogomolov M.N. Tsentriruyush-chaya opravka povyshennoy vibroustoychivosti dlya frezerovaniya tonkostennykh vtulok [Centering mandrel of increased vibration resistance for milling thin-walled sleeves]. Ferrous metals, 2019, no. 5, pp. 52–57