Abstract
Results of studies aimed at developing a new approach to measuring stress-strain properties of nanosized solids (strength, yield stress, and the value of plastic deformation at uniaxial tension) are generalized. This approach is based on the analysis of the parameters of microrelief arising upon the deformation of polymer films with thin coatings. It is demonstrated for the first time that the stress-strain properties of aluminum coatings deposited onto Lavsan substrates depend on the level of stresses in the substrate, the value of its deformation, and the thickness of the coating. The evolution of these parameters is related to the strain hardening of metal and the effect of nanostructuring of crystalline materials in the range of small thicknesses. When precious metal (Au, Pt) nanosized films are deposited onto polymers by ion-plasma sputtering, in the course of metal deposition, polymer surface layers interact with cold plasma. Stress-strain properties of polymer surface layers modified by plasma are quantitatively estimated for the first time. The model is proposed that makes it possible to take into account the contribution of the properties of precious metal and plasma-modified polymer surface layer to the strength of the coating.
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Original Russian Text © A.L. Volynskii, D.A. Panchuk, A.V. Bol’shakova, L.M. Yarysheva, N.F. Bakeev, 2011, published in Kolloidnyi Zhurnal, 2011, Vol. 73, No. 5, pp. 579–598.
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Volynskii, A.L., Panchuk, D.A., Bol’shakova, A.V. et al. Structure and properties of nanosized coatings deposited onto polymers. Colloid J 73, 587–604 (2011). https://doi.org/10.1134/S1061933X11050188
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DOI: https://doi.org/10.1134/S1061933X11050188