Abstract
The technique for the preparation of composite materials in which ice serves as the matrix and polymer fillers (the reinforcement) with various chemical compositions and morphologies and chemical ice modifiers serve as the tool for affecting its structure and properties is proposed in this work. The physical and mechanical properties of the composites (bending strength) are studied, and the character of the effect of two-dimensional and three-dimensional polymer networks, their amount, assembling, and concentration of modifiers are revealed. Also, the simultaneous action of polymer fillers and modifiers is considered. It is shown that the proposed technique makes it possible to control the physical and mechanical properties of composites on the basis of ice and create substantially stronger materials when compared to natural ice.
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References
Kravchuk, A.N. and Lysenko, V.A., Amazing composite—pikerite, Kompoz. Mir, 2015, no. 4 (61), pp. 68–70.
Arkharov, I.A. and Goncharova, G.Yu., Experimental analysis of ice structures modified by polymers, Kholod. Tekh., 2010, no. 11, pp. 46–50.
Goncharova, G.Yu., Nikiforova, I.G., Ustyugova, T.G., and Razomasov, N.D., Possibile reduction of friction in the “skate–ice” pair by modification of the structure of both contacting surfaces, Vestn. Ross. Fonda Fundam. Issled., 2015, no. 3, pp. 45–53.
Goncharova, G.Yu., Ustyugova, T.G., and Razomasov, N.D., Specific distribution of high-molecular compounds in the ice structures of sports facilities as one of the tasks of applied crystallization physics, Kholod. Tekh., 2015, no. 6, pp. 26–33.
Goncharova, G., Ustugova, T., Nikiforova, I., and Razomasov, N., Experimental study of heat and mass transfer in modified ice structures resulted from diffusion of polymeric compounds used for sports ice objects, Proc. 24th IIR Int. Congress of Refrigeration, Yokohama, Japan, August 16–22, 2015, Paris: Int. Inst. Refrig., 2015.
Kablov, E.N., Innovative developments of the All-Russian Scientific Research Institute of Aviation Materials within the project “Strategic development of materials and technologies of their recycling until 2030,” Aviats. Mater. Tekhnol., 2015, no. 1, pp. 3–33.
Pounder, E.R., The Physics of Ice, Amsterdam: Elsevier, 1965.
Lavrov, V.V., Deformatsiya i prochnost’ l’da (Deformation and Strength of Ice), Leningrad: Gidrometeoizdat, 1969.
Lazernye tekhnologii obrabotki materialov: sovremennye problemy fundamental’nykh issledovanii i prikladnykh razrabotok (Laser Technologies of Material Treatment: Modern Fundamental Studies and Applied Developments), Panchenko, V.Ya., Ed., Moscow: Fizmatlit, 2009, pp. 346–412.
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Original Russian Text © V.M. Buznik, D.N. Landik, V.S. Erasov, G.A. Nuzhnyi, R.N. Cherepanin, M.M. Novikov, G.Yu. Goncharova, N.D. Razomasov, T.S. Razomasova, T.G. Ustyugova, 2017, published in Materialovedenie, 2017, No. 2, pp. 33–40.
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Buznik, V.M., Landik, D.N., Erasov, V.S. et al. Physical and mechanical properties of composite materials on the basis of an ice matrix. Inorg. Mater. Appl. Res. 8, 618–625 (2017). https://doi.org/10.1134/S2075113317040050
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DOI: https://doi.org/10.1134/S2075113317040050