Computer-integrated simulation of metal casting process in a metal mold for casting pistons

Шрифт:
261

Idris G., Akimov O., Marchenko A.

https://doi.org
UDC 621.74:621.436

Summary:

The process modeling of metal casting into a mold with the use of combined technology computer-integrated design for chill of pistons is presented.

Keywords:

casting technology, COMPUTER-integrated design, simulation of casting processes, the internal combustion engine, the piston

REFERENCES:

  1. Galdin N. M., Chernega D. F., Ivanchuk D. F. (1989). Cvetnoe lit'e: spravochnik. [ Non – Ferrous casting: a Handbook]. Moskow: Mashinostroenie, pp. 528. [in Russian].
  2. Akimov O. V. (2008). Nauchnye osnovy konstruktorsko­tehnologicheskogo proektirovanija lityh detalej DVS. [The scientifc basis of engineering and design of cast parts of internal combustion engines]. Doctors thesis. Kharkow. [in Russian].
  3. Veynik A. I. (1980). Lit'e v kokil'. [Chill casting]. Moskow : Mashinostroenie, pp. 415. [in Russian].
  4. Veynik A. I. (1960). Teoriia zatverdevanija otlivki [Theory of solidifcation of castings]. Moskow : Mashgiz, pp. 436. [in Russian].
  5. Veynik A. I. (1962). Teplovye osnovy teorii lit'ia [Thermal fundamentals of the theory of casting]. Moskow: Mashgiz, pp. 382. [in Russian].
  6. Balandin G. F. (1976). Osnovy teorii formirovaniia otlivki: v 2­h chastjah. – Ch.1. [Fundamentals of the theory of formation of castings:in two parts]. Moskow : Mashinostroenie, V. 1, pp. 328. [in Russian].
  7. Anisovich G. A. (1960). Zatverdevanie otlivok [Solidifcation of castings]. Minsk : Nauka i tehnika, pp. 436. [in Belorusse].
  8. Gulyaev B. B. (1976). Teoriia liteynyh processov. [ The theory of foundry processes]. Leningrad: Mashinostroenie, pp. 216. [in Russian].
  9. Kurdumov A. V., Pikunov M. V., Chursin V. M., Bibikov E. L. (1986). Proizvodstvo otlivok iz splavov cvetnyh metallov. [Production of castings from alloys of non­ferrous metals]. Moskow: Metallurgija, pp. 416. [in Russian].
  10. Kurdumov A. V., Pikunov M. V., Chursin V. M. (1982). Liteynoe proizvodstvo cvetnyh i redkih metallov: uchebnoe posobie dlia vuzov. [Foundry­ferrous and rare metals: tutorial for universities]. Moskow: Metallurgija. [in Russian].
  11. Alehin V. I., Belogub A. V., Marchenko A. P., Akimov O. V. (2010). Modelirovanie mest projavlenija defektov usadochnogo haraktera pri proektirovanii lityh detalej DVS. [The simulation places of shrinkage defects in the design of cast parts of internal combustion engines. Kiev: Metall i lit'e Ukrainy, no 12, pp. 27­30. [in Ukraine].
  12. Dubickiy G. M. (1962). Litnikovye sistemy. [The casting system]. Moskow: Mashgiz, pp. 255. [in Russian].
  13. Rabinovich E. Z. (1977). Gidravlika [ Hydraulics]. Moskow: Mashgiz, pp. 304. [in Russian].
  14. Alyohin V. I., Taran B. P., Taran S. B. (2006). Sovershenstvovanie litnikovyh sistem dlja otlivok cilindricheskogo tipa iz aljuminievyh splavov [Improve Gating systems for castings such as a cylinder of aluminum alloy]. Moskow: Vіsnik nacіonal'nogo tehnіchnogo unіversitetu «HPІ», V. 10, pp. 104­107. [in Russian].
  15. Grachev Ju. P., Plaksin Ju. M. (2005). Matematicheskie metody planirovanija jeksperimentov [Mathematical methods of planning of experiments]. Moskow: DeLi print. [in Russian].
  16. Kublanov M. S. (2014). Matematicheskoe modelirovanie. Metodologiia i metody razrabotki matematicheskih modeley mehanicheskih sistem i processov: uchebnoe posobie. Chast' II. [ Mathematical modeling. Methodology and methods of constructing mathematical models of mechanical systems and processes: a tutorial. Part II]. Мoskow: Moskovskiy gosudarstvennyiy tehnicheskiy universitet grazhdanskoy aviatsii, pp. 125. [in Russian].
  17. Rozin L. A. (2000). Metod konechnyh elementov. [Finite element method]. Sorosovskij obrazovatel'nyy zhurnal, T. 6, no 4, pp. 120­127. [in Russian].
  18. Tihomirov M. D., Komarov I. A. (2002). Osnovy modelirovaniia liteinyh processov. Chto luchshe – metod konechnyh elementov ili metod konechnyh raznostey. [Basics of modeling of casting processes. Which is better ­ the fnite element method or fnite difference method]. Moskow: Liteynoe proizvodstvo, no 5, pp. 22­28. [in Russian].
  19. Smirnov E. M., Zaycev D. K. (2004). Metod konechnyh obyemov v prilozhenii k zadacham gidrogazodinamiki i teploobmena v oblastiah slozhnoy geometrii. [Finite volume method in application to problems of fluid dynamics and heat transfer in regions of complex geometry]. Sankt­Peterburg: Nauchno­tehnicheskie vedomosti SPbGPU, no 2, pp. 36. [in Russian].
  20. Brebbiia K., Uoker S. M. (1982). Primenenie metoda granichnyh elementov v tehnike. [Application of boundary element method in engineering]. Moskow: Izd. Mir. [in Russian].
  21. Tihomirov M. D. (2004). Sravnitel'nyj obzor naibolee izvestnyh sistem komp'juternogo modelirovanija litejnyh processov: materialy nauchno­prakticheskogo seminara «Novye podhody k podgotovke proizvodstva v sovremennoj litejnoj promyshlennosti». [A comparative overview of the most known systems of computer modelling of foundry processes: materials of the scientifc – practical seminar «New approaches to the preparation of production in modern foundry industry»]. SanktPeterburg: pp. 118 [in Russian].
  22. HU H. et al. (2006). Application of the software ProCAST in the casting of solidifcation simulation [J]. Materials Science and Technology, Vol. 3, pp. 19. [in Inglish].
  23. Vajss K., Ogorodnikova O. M., Popov A. V. (2002). Computerized engineering analysis of castings in the WinCast Program. Metalcasting industry trends. Moskow: Liteinoe Proizvodstvo, v. 7, pp. 25­26. [in Russian].
  24. Turishhev V. (2005). Modelling of foundry processes: what to choose?]. Moskow: Liteynoe proizvodstvo, no 11, pp. 54­55. [in Russian].

Statements about the conditions for obtaining the full text of the article:

On a prepaid subscription magazine for 1 month.
You can get acquainted with the cost of a subscription on this page.