An array of questions related to new technologies for manufacturing non-rigid thin-shell flat parts made of aircraft materials is viewed. To reduce possible deformations and improve the quality, it has been suggested that the energy of a modulated ultrasonic field should be used-Reference-Cited by-同舟云学术

An array of questions related to new technologies for manufacturing non-rigid thin-shell flat parts made of aircraft materials is viewed. To reduce possible deformations and improve the quality, it has been suggested that the energy of a modulated ultrasonic field should be used

Published:2022-09-26 Issue:9 Volume:2022 Page:10-17
ISSN:2223-4608
Container-title:Science intensive technologies in mechanical engineering
language:en
Short-container-title:

Author:

Kiselyov Evgeny¹

Affiliation:

1. Ul'yanovskiy gosudarstvennyy tehnicheskiy universitet

Abstract

Publisher

Bryansk State Technical University BSTU

Subject

General Earth and Planetary Sciences,General Environmental Science

Reference9 articles.

1. Khramov, A., Semdyankin, I., Kiselev, E. Application of the Modern Stationary Workholding Systems for Increase Capacity and Quality of Non-Rigid Aircraft Parts/ Matec web of Conferences 346, 03076 (2021) ICMTMTE 2021., Khramov, A., Semdyankin, I., Kiselev, E. Application of the Modern Stationary Workholding Systems for Increase Capacity and Quality of Non-Rigid Aircraft Parts/ Matec web of Conferences 346, 03076 (2021) ICMTMTE 2021.

2. Электронный ресурс: https://haltec.bitrix24.ru/~eluYV. (дата обращения: 08.04.2022), Available at: https://haltec.bitrix24.ru/~eluYV. (Accessed 4 april 2022)

3. Киселев, Е.С., Ковальногов, В.Н. Механическая обработка заготовок в условиях критического тепломассопереноса // Избранные труды Российской школы по проблемам науки и технологий. – М.: РАН, 2008. – 250 с., Kiselev E.S., Kovalnogov V.N. Mekhanicheskaya obrabotka zagotovok v usloviyakh kriticheskogo teplomassoperenosa [Machining of workpieces in conditions of critical heat and mass transfer]. Moscow: Russian Academy of Sciences Publ., 2008, 250 p. ( in Russian).

4. Киселев, Е.С. Современные ультразвуковые размерные техно-логии механической обработки заготовок из труднообрабатываемых и композиционных материалов // Наукоемкие технологии в машиностроении. – 2020. – №9 (111). – С. 33 39., Kiselev E.S. Modern ultrasonic dimensional technologies for machining workpieces from difficult-to-machine and composite materials. / Science-intensive technologies in mechanical engineering, 2020, no. 9 (111), pp.33-39.

5. Марков, А.И. Ультразвуковая обработка материалов. – М.: Машиностроение, 1980. – 237 с., Markov A.I. Ultrazvukovaya obrabotka materialov [Ultrasonic processing of materials]. Moscow: Mashinostroenie Publ., 1980. 237 p. (in Russian).