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All issues Volume 410 (2023) E3S Web of Conf., 410 (2023) 02060 References
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Issue
E3S Web of Conf.
Volume 410, 2023
XXVI International Scientific Conference “Construction the Formation of Living Environment” (FORM-2023)
Article Number 02060
Number of page(s) 13
Section Reliability of Buildings and Constructions
DOI https://doi.org/10.1051/e3sconf/202341002060
Published online 09 August 2023
  1. I.Balberg, D. Azulay, D. Toker and O. Millo, “Percolation and Tunneling in Composite Materials,” Int. J.Mod. Phys. B, 18, 2091-121 (2004). [CrossRef] [Google Scholar]
  2. Qi Jianquan, Li Longtu, Wang Yongli, Gui Zhilun. Preparation of nanoscaled BaTiO3 powders by DSS method near room temperature under normal pressure. J.Crist. Growth. Vol. 260 (3-4) pp. 551-556 Amsterdam, (2004). [CrossRef] [Google Scholar]
  3. Gu Ch., Guo Ch., Dong X., Hu Zh., Wu P., Su Zh., Lu Y., Xu B., Yu Zh., Liu A. Coreshell structured iron-containing ceramic nanoparticles: Facile fabrication and excellent electromagnetic absorption. Journal of the American Ceramic Society. Vol. 102(12). pp. 7098-7107, USA, (2019). [CrossRef] [Google Scholar]
  4. Gulbin V.N., Popov V.А. Metal-matrix composites reinforced with ceramic nanoparticles. Materials of the VII All-Russian conference “Physicochemistry of ultrafine (nano-) systems. Moscow: Application of nanomaterials in practice. N 5. p. 298. (2006). [Google Scholar]
  5. Anisimov V.Zh., Buyakova S.P., Kulkov S.N. Porous ceramics from nanocrystalline ZrO2 (MgO) powder. Materials of the VII All-Russian conference “Physicochemistry of ultradispersed (nano-) systems. Moscow: Application of nanomaterials in practice, N 5. p. 296. (2006). [Google Scholar]
  6. Gubin S.P. What is a nanoparticle? Trends in the development of nanochemistry and nanotechnology. Ros.khim.zhurn. M.: Chemistry, Т.XLIV, № 6. p. 23 (2000). [Google Scholar]
  7. Abdurakhmanov, U., Umarov, A.V., Zainutdinov, A.Kh., Magrupov, M.A. Electrical conductivity of semiconductor pyropolymers in an alternating electrical field Polymer Science 31(6), pp. 1323–1330. (1989). [Google Scholar]
  8. Khakimov Z.M., Tereshchuk P.L., Mukhtarov A.P., Umarova F.T., Svihart M.T. Structure and properties of silicon nanoparticles. Uzbek Physical Journal. № 1-2. pp. 20-25. Tashkent, (2006). [Google Scholar]
  9. Kalanov M.U., Ibragimova E.M. Perovskite phase of yttrium metal oxide ceramics. Letters to ZhTF. Т.28, №. 8. pp. 1-7. Moscow, (2002). [Google Scholar]
  10. Villegas M., Jardiel T., Caballero A., Fernandiz J.F. Electrical properties of bismuth titanate based ceramics with secondary phases. J. Electroceramics. Cambridge, № 1-3. pp. 543-548. (2004). [CrossRef] [Google Scholar]
  11. Negmatova, K., Daminov, A., Umarov, A., Abed, N. Synthesis of diamonds in the C - Mn-Ni-(H) system and the diamond-shaped mechanism, E3S Web of Conferences, Vol. 264, 05003, (2021). [CrossRef] [EDP Sciences] [Google Scholar]
  12. Miradullaeva, G., Rakhmatov, E., Bozorov, O., Ziyamukhamedova, U., Shodiev, B. Mathematical Modeling of Rheological Properties During Structure Formation of Heterocomposite Potting Materials and Coatings and Their Application Lecture Notes in Civil Engineeringthis link is disabled, 150 LNCE, pp. 346–355 (2021). [Google Scholar]
  13. Ziyamukhamedova, U., Rakhmatov, E., Nafasov, J. Optimization of the composition and properties of heterocomposite materials for coatings obtained by the activationheliotechnological method, Journal of Physics: Conference Series, 1889(2), 022056 (2021). [CrossRef] [Google Scholar]
  14. Yakubov B.B., Ibadullaev A. Yakubova D.K. Modification of composite elastomeric materials for multifunctional purposes. Universum: tekhnicheskiye nauki: elektron. nauchn. zhurn. Vol. 10(91). (2021). [Google Scholar]
  15. Ibadullaev A., Negmatova D., Teshabaeva E. Radiation resistanct of filled elastomer compositions. IOP Cjnf. Series: Earth and Environmental Science Vol. 808, 012043 (2021). [Google Scholar]
  16. Rakhimova Ya., Baidzhanov M., Abdurakhmanov U. Electrical conductivity and structure of composite ceramic materials containing nickel nanoparticles. Vestnik NUUz. № 3, pp. 83-84 Tashkent, (2005). [Google Scholar]
  17. A. L. Efros and B. I. Shklovskii, Critical Behaviour of Conductivity and Dielectric Constant Near the Metal–Non-Metal Transition Threshold, Phys. Stat. Sol. B, 76, pp.475–85 (1976). [CrossRef] [Google Scholar]
  18. Kharitonov E.V. Dielectric materials with a heterogeneous structure. Moscow, (1983). [Google Scholar]
  19. Abdurakhmanov U., Rakhimova Ya., Balberg I. Topology of infinite cluster in ceramic materials containing micro- and nano-particles of nickel. Uzbek Journal of Physics. Vol. 21, No 4. pp. 208-219. Tashkent, (2019). [Google Scholar]
  20. Zabrodsky A.G., Nemov S.A., Ravich Yu.I. Electronic properties of disordered systems, A series of tutorials “New sections of the physics of semiconductors” SPb.: Nauka, Sov. Phys. Semiconductors. V. 11. Number 3. R.595 (1977). [Google Scholar]

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