TO THE SOLUTION OF SOME PROBLEMS OF DEVELOPING ASSEMBLY TECHNOLOGY BY MODELING ASSEMBLIES IN CAD SYSTEMS

Authors

  • Elena Samarkina Department of Mechanical Engineering, Pskov State University (RU)
  • Alexander Samarkin Department of Medical Informatics and Cybernetics, Pskov State University (RU)
  • Sergey Dmitriyev Department of Mechanical Engineering, Pskov State University (RU)
  • Evgenia Evgenjeva Department of Mechanical Engineering, Pskov State University (RU)

DOI:

https://doi.org/10.17770/etr2019vol1.4095

Keywords:

assembly, computer-aided design, computer simulation, assembly tree

Abstract

Considers the features of the automated design of technological processes of assembly of products in mechanical engineering, in terms of their impact on production processes.

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References

ISO 16792:2015(en). Technical product documentation — Digital product definition data practices. [Электронный ресурс]. URL: https://www.iso.org/obp/ui/#iso:std:iso:16792:ed-2:v1:en (дата обращения: 20.11.2018).

Scott Knoche. Embrace Model Based Definition. Quality magazine. July 1, 2006.

Ma, Qin Yi; Song, Li Hua; Xie, Da Peng; Zhou, Mao Jun (2017). "Development of CAD Model Annotation System Based on Design Intent". Applied Mechanics and Materials. 863: 368–72. doi:10.4028/www.scientific.net/AMM.863.368.

Uski, Pekka; Pulkkinen, Antti; Koskinen, Kari T. (2016). Aaltonen, Jussi; Virkkunen, Riikka; Koskinen, Kari T.; Kuivanen, Risto, eds. Can a sheet metal product be manufactured without drawings? – Product lifecycle's point of view (PDF). Proceedings of the 1st Annual SMACC Research Seminar 2016. Tampere: Tampere University of Technology. pp. 109–11. ISBN 978-952-15-3832-2.

Quintana, Virgilio; Rivest, Louis; Pellerin, Robert; Kheddouci, Fawzi (2012). "Re-engineering the Engineering Change Management process for a drawing-less environment". Computers in Industry. 63 (1): 79–90. doi:10.1016/j.compind.2011.10.003.

Kovalchuk E.R., Kosov M.G., Mitrofanov V.G., et al. Fundamentals of automation of machine-building production: A textbook for universities / Ed. Yu. M. Solomentsev. - Moskow: Higher School, 1999. 312 p. (In Russian)

Baranchukova I.M., Gusev A.A., Kramarenko Yu.B., et al. Designing Automated Engineering Technology: A Textbook for High Schools, Ed. Yu. M. Solomentsev. Moscow: Higher School, 1999. 416 p. (In Russian)

Mrochek J.A., Zholobov A.A., Akulovich L.M. Fundamentals of automated production technology in mechanical engineering: Tutorial. Minsk: IPE Technoprint, 2003. 304 p. (In Russian)

Timiryazev V.A., Skhirtladze A.G., Solnyshkin N.P., Dmitriev S.I., Evgenieva E.A. Designing technological processes of machine-building production: Textbook. Sankt-Petersburg: Lan publishing house, 2014. 384 p. (In Russian)

Timiryazev V.A. et al. Production technology and computer-aided design of technological processes in engineering: a textbook. Stary Oskol: TNT, 2017. 319 p. ISBN 978-5-94178-557-5. (In Russian)

Scientific basis for automating the assembly of machines. Ed. Novikov M.P. - Moscow: Mashinostroenie, 1976. 472 p. (In Russian)

Samarkina E.I. Aggregate reconfiguration of an analog model of machine building images. Memoirs of the Pskov Polytechnic Institute. St. Petersburg, Pskov, St. Petersburg State Technical University Publishing House, 1998, No. 2, .- p. 92-96

Samarkina E.I., Dmitriev S.I., Samarkin A.I., Evgenieva E.A. Analysis of the features of automated design of technological processes of assembly in mechanical engineering. Bulletin of the Pskov State University. Series "Technical Sciences". Issue 2.– Pskov: Pskov State University, 2015. - p. 19-27

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Published

2019-06-20

How to Cite

[1]
E. Samarkina, A. Samarkin, S. Dmitriyev, and E. Evgenjeva, “TO THE SOLUTION OF SOME PROBLEMS OF DEVELOPING ASSEMBLY TECHNOLOGY BY MODELING ASSEMBLIES IN CAD SYSTEMS”, ETR, vol. 1, pp. 249–251, Jun. 2019, doi: 10.17770/etr2019vol1.4095.