Evaluation of the Manufacturability of “Shaft”–Type Parts with the Use of Complex Methods

Evaluation of the Manufacturability of “Shaft”–Type Parts with the Use of Complex Methods

Aleksey Sychugov, Yulia Frantsuzova, Vladimir Salnikov

download PDF

Abstract. This work is devoted to improving the quality of engineering design solutions in mechanical engineering on the basis of the comprehensive qualimetric evaluation of ‘shaft’-type part that takes into account cost, complexity, design and technological unification of the parts.

Keywords
Adaptability, Labor Intensity, Unification, Design, Shaft

Published online 1/5/2022, 6 pages
Copyright © 2022 by the author(s)
Published under license by Materials Research Forum LLC., Millersville PA, USA

Citation: Aleksey Sychugov, Yulia Frantsuzova, Vladimir Salnikov, Evaluation of the Manufacturability of “Shaft”–Type Parts with the Use of Complex Methods, Materials Research Proceedings, Vol. 21, pp 460-465, 2022

DOI: https://doi.org/10.21741/9781644901755-75

The article was published as article 75 of the book Modern Trends in Manufacturing Technologies and Equipment

Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.

References
[1] Averchenkov V. I. Formalization of the construction and selection of progressive technologies that provide the required quality of products: Abstract of the dis. … doc. tekhn. science: 05.02.08. – Bryansk, 1990.
[2] Akimov, I. V. Self-learning system for the rapid assessment of the complexity of manufacturing of machine parts: author. dis. cand. tekhn. science: 05.02.08. – Tula, 1999.
[3] I. V. Akimov, A. N. Inozemtsev, N. I. Pas’ko, Substantiation of the adaptive method for fast regulation of the complexity of the goods machine tools, Izvestiya TSU. Ser. Mashinostroenie. – Tula, Issue 2 (1998) 216-221.
[4] Saati T. Decision-making: a method of analyzing hierarchies, Moscow, 1993.
[5] Amirov Yu. D Manufacturability of product design. Handbook, Moscow, 1990.
[6] Novikova M. V., Troitsky D. I. Integrated design and technological model of a part as a means of evaluating the labor intensity of its manufacture, Bulletin of Computer and Information Technologies, No. 1 (2006) 22-25.
[7] Volkhin K. A. Design documents and rules for their registration [Electronic resource]: textbook manual for students of technical sciences, Novosibirsk State Technical University. – Novosibirsk, 2004. – Access mode: http://graph.power.nstu.ru/wolchin/umm/eskd/index.htm.
[8] Popov M. E. Automated methods of improving the manufacturability of product design in an integrated CAD/ M. E. Popov, A. M. Popov, Journal of mechanical engineering, No. 10 (2003) 48-53.
[9] Fominykh R. L. Development of automated subsystems the definition of constructive-technological complexity, the complexity of the manufacture of parts and logistical level of multiproduct production: Author. dis. cand. tekhn. science: 05.13.06. – Izhevsk, 2003.
[10] . Yakimovich B. A., Kuznetsov A. P., Reshetnikov E. V. Model for calculating project costs for manufacturing machine-building products, Automation and Modern Technologies No. 5 (2003) 20-24.