Vol. 1 No. 03 (2025), Articles
Vol. 1 No. 03 (2025)

CHEGARA SHARTLARINING ALYUMINIY PLASTINKALARNING ZARBAGA BARDOSHLILIGIGA TA’SIRI – SONLI MODELLASHTIRISH

Articles
Published 2025-06-04
  • Karimov I.M.
  • O‘rolov O‘.A.
Karimov I.M.
O‘rolov O‘.A.
PDF

Keywords

Abaqus/Explicit, alyuminiy plastinka, yuqori tezlikdagi zarba, Johnson - Cook modeli, chegara shartlari, sonli modellashtirish.

How to Cite

I.M., K., & O‘.A., O. (2025). CHEGARA SHARTLARINING ALYUMINIY PLASTINKALARNING ZARBAGA BARDOSHLILIGIGA TA’SIRI – SONLI MODELLASHTIRISH. Advances in Science and Sustainability, 1(03), 37-39. https://doi.org/10.70728/susta.v01.i03.015
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver AMA

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

Ushbu ishda alyuminiy plastinkaga shar shaklidagi po‘lat o‘qning zarba berishi jarayoni Abaqus/Explicit moduli yordamida modellashtirildi. Hisoblashlar ikki xil chegara sharti uchun olib borildi: plastinka chetlari to‘liq qistirib mahkamlangan va erkin tayanchli holat. Natijada o‘q tezligi - vaqt hamda plastinka qarshilik kuchi - vaqt grafigi qurildi. Taqqoslash shuni ko‘rsatdiki, chegara shartlari zarba energiyasini so‘ndirish samaradorligiga sezilarli ta’sir ko‘rsatadi.

PDF

References

Fomin, V.M., Gulidov, A.I., Sapojnikov, G.A., et al. (1999). Vysokoskorostnye vzaimodeystvie tel. (600p.). Novosibirsk: Izd-vo SO RAN

Aptukov, V.N., Murzakaev, A.V., & Fonarov, A.V. (1992). Prikladnaya teoriya pronikaniya. (105p.). Moscow: Nauka.

Zlatin N.A., Mishin G.I., et al. (1974). Ballisticheskiye ustanovki i ix primeneniye v eksperimentalnix issledovaniyax (344p). Moscow: Nauka.

Vitman F.F., Stepanov V.A. (1959) Vliyaniye skorosti deformirovaniya na soprotivleniye metallov pri udarnix skorostyax 10²–10³ m/s // Nekotorie problemi prochnosti tvyordogo tela (386p). Moscow-Leningrad: AN SSSR.

Bajenov V.G., & Kotov V.L. (2011). Matematicheskoye modelirovaniye nestandartnix protsessov udara i pronikaniya osesimmetrichnix tel i identifikatsiya svoystv gruntovix sred (208p). Moscow: FIZMATLIT

Glazyrin V.P., Trushkov V.G., & Olshanskiy A.B. (2002). Probitie sloistyx pregrad, soderjashhix keramicheskie sloi. Vychislitelnye texnologii, 2002, T. 7, ch. 2, pp. 163-171

Gerasimov, A.V., & Pashkov, S.V. (2013). Chislennoe modelirovanie probitiya sloistyx pregrad. Mexanika kompozitsionnyx materialov I konstruksiy, 2013, T. 19, № 1, pp. 49-61.

Karimov I.M., & Urolov U.A. (2025) High-velocity impact of a steel ball on a two-layer plate // ISJ Theoretical & Applied Science, 06 (146), 127-132.

ABAQUS Theory Manual. https://classes. Eengineering.wustl.edu/2009/spring/mase5513/ Abaqus/docs/v6.6/books/stm/default.htm

Johnson G.R., Cook W.H. A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures // Proceedings of the 7th International Symposium on Ballistics. The Hague, Netherlands, 1983. P. 541–547.

Johnson G.R., Cook W.H. Fracture characteristics of three metals subjected to various strains, strain rates, temperatures and pressures // Engineering Fracture Mechanics. 1985. Vol. 21, No. 1. P. 31–48. DOI: 10.1016/0013-7944(85)90052-9.

Rai R., Kumar G., Dagar S. et al. Numerical simulation of ballistic impact on aluminium 5083-H116 plate with Johnson cook plasticity model // Materials Today: Proceedings. 2021. Vol. 44. P. 2390–2395. DOI: 10.1016/j.matpr. 2021.01.373.

Abaqus Analysis User's Guide, Dassault Systèmes, 2024.

Johnson, G. R., Cook, W. H. (1983). A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures. Proceedings of the 7th International Symposium on Ballistics.

Zukas, J. A. (1990). High Velocity Impact Dynamics. Wiley-Interscience.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.