Constructive-technological modeling of composite constructions using the system analysis

Authors

  • Віталій Анатолійович Пасічник Institute of Mechanical Engineering National Technical University of Ukraine «Kiev Polytechnic Institute» Peremogy str. 37, Kyiv, Ukraine, 03056, Ukraine https://orcid.org/0000-0002-4422-6277
  • Олексій Олександрович Хмуренко Institute of Mechanical Engineering National Technical University of Ukraine «Kiev Polytechnic Institute» Peremogy str. 37, Kyiv, Ukraine, 03056, Ukraine https://orcid.org/0000-0002-3631-9166

DOI:

https://doi.org/10.15587/1729-4061.2015.47348

Keywords:

constructive-technological model, composite constuction, modular assembly devices, systems analysis

Abstract

Along with effective system analysis methods, the problem of the detailed description of objects and relations between them in systems is still topical in modeling composite constructions and technologies for their preparation. The problem is complicated by specific requirements for composite materials in the construction. Building and analysis of the composite construction model for classical assembly devices (with rigid basic elements) point out the unreasonableness of use, and as a result - of the assembly technology in general.

The proposed combined formalized model of the construction made of composite materials in the modular assembly allows to describe the above technology in detail and analyze the construction in all necessary areas and assembly parts without destroying the overall structure of the model. Concurrent deployment of components made of composite materials in the appropriate modular devices and their fixation by specialized tools allows to reduce the overall assembly cycle excluding labor-intensive fitting and refinement operations. The implementation algorithm of such technology with the possibility of inter-operation data control and correction using automated assembly equipment and systems was considered.

Author Biographies

Віталій Анатолійович Пасічник, Institute of Mechanical Engineering National Technical University of Ukraine «Kiev Polytechnic Institute» Peremogy str. 37, Kyiv, Ukraine, 03056

Doctor of Technical Sciences, Professor, Head of the Department

Department of Integrated Manufacturing Engineering 

Олексій Олександрович Хмуренко, Institute of Mechanical Engineering National Technical University of Ukraine «Kiev Polytechnic Institute» Peremogy str. 37, Kyiv, Ukraine, 03056

PhD student

Department of Integrated Manufacturing Engineering

References

  1. Pasichnyk, V. A., Khmurenko, O. O. (2015). Metodyka formuvannia spetsyfichnykh vymoh pry modeliuvanni kesonnykh konstruktsii iz polimernykh kompozytsiinykh materialiv. Visnyk NTUU «KPI». Seriia «Mashynobuduvannia», 74, 64–66.
  2. Masiagin, V. B. (2013). Rasshirenie oblastei teoreticheskogo i prakticheskogo primeneniia razmernogo analiza v mashinostroenii. Mat. konf. SWorld. Perspective innovations in science, education, production and transport ‘2013. Tehnicheskie nauki – Mashinovedenie i mashinostroenie, 17-26 December 2013. Available: http://www.sworld.com.ua/index.php/ru/technical-sciences-413/machines-and-mechanical-engineering-413/20796-413-0636
  3. Masiagin, V. B., Martynov, V. G. (2012). Primenenie setei Petri pri modelirovanii shemy sborki. Materialy VII Mezhdunarodnoi nauchno-tehnicheskoi konferentsii. Sektsiia № 5. Tehnologii mehanicheskoi i fiziko-tehnicheskoi obrabotki, 323–327.
  4. Primak, D. D., Volkov, I. A. (2014). Metodika postroeniia razmernyh tsepei s pomoshch'iu grafa modulei poverhnostei. Nauchnyi zhurnal «Vestnik magistratury, № 6 (33), Vol. I, 81–83.
  5. Vysloukh, S. P., Filippova, M. V. (2006). Metodyka avtomatyzovanoho proektuvannia tekhnolohii skladannia vyrobiv pryladobuduvannia. Visnyk NTUU «KPI». Seriia «Mashynobuduvannia», № 32, 111–117.
  6. Korenkov, V. M., Subin, A. A. (2008). Metod strukturnoho syntezu ta otsinky alternatyv pry avtomatyzovanomu syntezi tekhnolohichnykh protsesiv skladannia vyrobiv. Visnyk ZhDTU. Seriia «Tekhnichni nauky», № 4 (47), 155–160.
  7. Korenkov, V. M. (2003). Model avtomatyzovanoho syntezu marshrutnoho tekhnolohichnoho protsesu skladannia vyrobiv. Visnyk tekhnolohichnoho universytetu Podillia, № 4, Part 2, 228–235.
  8. Solomentsev, Yu. M., Chekmenev, S. E., Frolov, E. B., Kriukov, V. V. (2010). O problemah avtomatizatsii etapov zhiznennogo tsikla izdeliia. Vestnik MGTU "Stankin", № 4 (12), 122–125.
  9. Bozhko, A. N. (2011). Modelirovanie mehanicheskih sviazei izdeliia. Elektronnoe nauchno-tehnicheskoe izdanie «Nauka i obrazovanie». Available: http://technomag.bmstu.ru/doc/182518.html
  10. Pasichnyk, V. A. (2014). Binarni vidnoshennia obmezhen rukhlyvosti – osnova matematychnoho opysu skladalnykh vyrobiv. Suchasni tekhnolohii mekhano-skladalnoho vyrobnytstva, 1, 57–61.
  11. Gonsales-Sabater, A. (1999). Sistema avtomatizirovannogo proektirovaniia tehnologii instrumental'nogo proizvodstva. Mashinostroitel', № 4, 54–59.
  12. Masiagin, V. B., Volgina, N. V. (2011). Semanticheskii podhod k avtomatizatsii kodirovaniia konstruktorsko-tehnologicheskoi informatsii. Mater. nauch.-tehn. konf. "Omskii region – mestorozhdenie vozmozhnostei". Omsk: OmGTU, 63–65.

Published

2015-08-19

How to Cite

Пасічник, В. А., & Хмуренко, О. О. (2015). Constructive-technological modeling of composite constructions using the system analysis. Eastern-European Journal of Enterprise Technologies, 4(7(76), 15–20. https://doi.org/10.15587/1729-4061.2015.47348

Issue

Section

Applied mechanics