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On the issue of deformation and destruction of porous ceramics based on diatomite
Russian version
DOI: 10.21883/PSS.2023.01.54985.485
Skvortsov A. A. 1, Nikolaev V. K. 1, Luk'yanov M. N. 1, Chebeneva I. E.1
1Moscow Polytechnic University, Moscow, Russia
Email: skvortsovaa2009@yandex.ru
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The presented work is devoted to the study of deformation and destruction of porous ceramics based on diatomite. The dependences of the elastic modulus of the material on porosity were obtained by scanning electron microscopy, mechanical compression tests of samples and acoustic emission method: with a change in the porosity of the medium in the range of 20-60%, the value of the elastic modulus varied in the range from 240 to 50 MPa. It was also found that the tensile strength of the material's changes by ~10 MPa with a change in porosity. Keywords: porous ceramics, diatomite, modulus of elasticity, tensile strength, porosity, fracture mechanics.
  1. P.S. Liu, G.F. Chen. Porous Materials: Processing and Applications. Elsevier Inc. (2014). 559 p
  2. X. Li, L. Yan, Y. Zhang, X. Yang, A. Guo, H. Du, F. Hou, J. Liu. Ceram. Int. 48, 7, 9788 (2022)
  3. S.V. Panin, P.S. Lyubutin, S.P. Buyakova, S.N. Kulkov. Phys. Mesomech. 12, 3--4, 141 (2009)
  4. F. Wang, Z. He, Z. Xie, S. Zhou. J. Chin. Ceram. Soc. 50, 6, 1566 (2022)
  5. S. Lyu, T. Zhao, Y. Wang, H. Han, T. Li, C. Zhang, D. Li, J.-K. Wang, J. Huang, P. Yu, D. Sun. Ceram. Int. 48, 16, 22845 (2022)
  6. A. Amoda, L. Borkiewicz, A. Rivero-Muller, P.Alam. Mater. Today Commun. 24, 100923 (2020)
  7. A.D. Dalgic, D. Atila, A. Karatas, A. Tezcaner, D. Keskin. Mater. Sci. Eng. C 100, 735 (2019)
  8. A.D. Kashin, M.B. Sedelnikova, V.V. Chebodaeva, P.V. Uvarkin, N.A. Luginin, E.S. Dvilis, O.V. Kazmina, Yu.P. Sharkeev, I.A. Khlusov, A.A. Miller, O.V. Bakina. Ceram. Int. (2022). In press
  9. P.J. Lopez, J. Descles, A.E. Allen, C. Bowler. Current Opinion. Biotechnology 16, 2, 180 (2005)
  10. P. Pandit, P. Rananaware, A. D'Souza, M.D. Kurkuri, V. Brahmkhatri. J. Porous Mater. (2022). In print
  11. A.A. Skvortsov, M.N. Luk'yanov, I.E. Chebeneva, A.A. Skvortsova. Tech. Phys. Lett. 47, 2, 166 (2021)
  12. Y.E. Pivinskii, P.V. Dyakin. Refractories. Industrial Ceram. 56, 3, 296 (2015)
  13. A.V. Lavrov, V.L. Shkuratnik. Acoustical Phys. 51, Suppl. 1, S2 (2005)
  14. M. Kopec, S. Jozwiak, Z.L. Kowalewski. Mater. 13, 12, 2821 (2020)
  15. W. Pabst, E. Gregorova. Ceram. --- Silikaty 48, 1, 14 (2004)
  16. D.P.H. Hasselman. J.Am. Ceram. Soc. 45, 9, 452 (1962)
  17. R.L. Coble, W.D. Kingery. J. Am. Ceram. Soc. 39, 11, 377 (1956)
  18. A.F. Fedotov. Vestn. Samara State Technical University Ser. Tekh. nauki 4, 40, 83 (2013). (in Russian)
  19. V.L. Gilyarov, E.E. Damaskinskaya. FTT 63, 6, 783 (2021). (in Russian)
  20. G. Feng, J. Zhao, H. Wang, Z. Li, Z. Fang, W. Fan, P. Yang, X. Yang. Powder Technol. 396, Part A, 449 (2022)
  21. B. Casals, K.A. Dahmen, B. Gou, S. Rooke, E.K.H. Salje. Sci. Rep. 11, 1, 5590 (2021)
  22. E.K.H. Salje, D.E. Soto-Parra, A. Planes, E. Vives, M. Reinecker, W. Schranz. Phil. Mag. Lett. 91, 8, 554 (2011)
  23. E.K.H. Salje, H. Liu, L. Jin, D. Jiang, Y. Xiao, X. Jiang. Appl. Phys. Lett. 112, 5, 054101 (2018)
  24. G.F. Nataf, P.O. Castillo-Villa, J. Baro, X. Illa, E. Vives, A. Planes, E.K.H. Salje. Phys. Rev. E 90, 2, 022405 (2014)
  25. A.V. Lavrov, V.L. Shkuratnik. Akust. Zhurn. 51 (Appendix), 6 (2005). (in Russian)

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