Control Systems and Computers, N5, 2020, Article 6

https://doi.org/10.15407/csc.2020.05.064

Control Systems and Computers, 2020, Issue 5 (289), pp. 64-69.

UDK  681.3:621.74

Doroshenko V.S., Doctor (Eng.), Senior Research Associate, Physical-technological Institute of Metals and Alloys of the National Academy of Science of Ukraine, Kyiv, Ukraine, 03680, Vernadskogo, 34/1, ORCID:  0000-0002-0070-5663, Websites: http://dorosh.domik.ua/, E-mail: doro55v@gmail.com,

Tokova O.V., junior research scientist, Department for Technologies of Inductive Modelling, International Research and Training Center for Information Technologies and Systems of the NAS and MES of Ukraine, Glushkov ave., 40, Kyiv, 03187, Ukraine, E-mail: len327@ukr.net

The Examples of Digitalization of Foundry Production: Virtual Engineering, Digital Twin, Additive Technologies

 The construction of a digital twin of a real physical object is described. It can be a virtual counterpart of a part, product, equipment, technological process, production sites, workshops, or even factories. In fact, it is a set of mathematical models describing the state of an object and all its elements. The possibility of constructing a digital twin of an industrial facility is shown using the example of a casting shop based on gasified models.

Download full text! (On English)

Keywords: digital twin, technological process, castings, modeling, forecasting.

  1. Kuharska, N.O., 2020. “Digitalization of the National Economy: Transitions and Possibilities for Ukraine”. Globalni tendenciyi v ekonomici, finansah ta upravlinni: materiali Mizhnarodnoyi naukovo-praktichnoyi konferenciyi (Odesa, 2 Oct. 2020). Odesa: Shidnoyevropejskij centr naukovih doslidzhen, pp. 22 – 25. [in Ukrainian]
  2. Mihaylova, L.V., 2018. “Engineering as a component of the functioning of intellectual property”. Visnyik PDABA, 6, pp.110-115. [in Ukrainian]
  3. Beketova, Yu.A., Vedernikov, M.V., 2018. “Virtual engineering of foundry technologies in the preparation of vocational training bachelors”. Informatizatsiya. Tehnologii. Obrazovanie. Ekaterinburg, pp. 311-317. [in Russian]
  4. Shinskiy, O.I., Marukovich, E.I., Shalevskaya, I.A. et all., 2017. “Economics, ecology, organization of production of molding according to gasified models”. Lite i metallurgiya, 4, pp. 53-59. [in Russian]
  5. Bruk, P., 2019. “Digital twins based on the simulation of multiphysics processes”. SAPR i grafika, 7, pp. 24-26. [in Russian]
  6. Doroshenko, V.S., 2014. “3D technologies for making castings as examples of additive manufacturing”. Metall i lite Ukrainyi, 12, pp. 4– 9. [in Russian]
  7. Doroshenko, V.S., 2014. “Additive manufacturing is a growing industry worldwide”. Metall i lite Ukrainyi, 5, pp. 35 – 44. [in Russian]
  8. Sher, D. The global additive manufacturing market 2018 is worth $9.3 billion. [online] Available at: <https://www.3dprintingmedia.network/the-global-additive-manufacturing-market-2018-is-worth-9-3-billion/>[Accessed 14 Dec. 2019].
  9. Repin, S. The development of a Samara student will make 3D metal printing cheaper by nine times. Samara University. [online] Available at: <https://www.youtube.com/watch?time_continue=3&v=G4TMhya_NHw&feature=emb_logo>[Accessed 08 Okt. 2020]. [in Russian].

Received 15.10.2020