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IssuesArchive of Issues2017-5pp.587-593

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S.N. Yakupov, "Experimental-Theoretical Approach to Determining the Film-Substrate Adhesion," Mech. Solids. 52 (5), 587-593 (2017)
Year 2017 Volume 52 Number 5 Pages 587-593
DOI 10.3103/S0025654417050144
Title Experimental-Theoretical Approach to Determining the Film-Substrate Adhesion
Author(s) S.N. Yakupov (Institute of Mechanics and Engineering of the Kazan Scientific Center of the Russian Academy of Sciences, ul. Lobachevskogo 2/31, Kazan 420111 Russia, tamas_86@mail.ru)
Abstract There are well-known methods and algorithms for determining the film adhesion to a plane substrate, which have their own advantages and drawbacks and the applicability ranges. The substrates can have a good initial shape (spherical, cylindrical, etc,) covered, for example, by a thin film layer. But there are practically no studies of the film adhesion to a substrate with a nonplane surface. A two-dimensional approach to determining the film adhesion to a plane or a nonplane substate is developed, which permits increasing the accuracy of determining the adhesion and decreasing the scattering of the obtained results. An example is considered.
Keywords thin film, adhesion, plane and nonplane substrate, separation force, experimental-theoretical approach
References
1.  N. M. Yakupov, N. K. Galimov, and A. A. Leontiev, "Experimental-Theoretical Method for Studying the Strength of Polymer Films," Mekh. Kompoz. Mater. Konstr. 6 (2), 238-243 (2000).
2.  N. M. Yakupov, A. R. Nurgaliev, and S. N. Yakupov, "Methods for Testing Films and Membranes under the Conditions of Uniform Distribution of Surface Pressure," Zavodskaya Laboratoriya. Diagnostika Materialov 74 (11), 54-56 (2008).
3.  N. M. Yakupov, R. G. Nurullin, and S. N. Yakupov, "Methods for Studying the Mechanical Characteristics of Thin Films and Nanofilms," Vestnik Mashinostr., No. 6, 44-47 (2009).
4.  N. K. Galimov, N. M. Yakupov, and S. N. Yakupov, "Experimental-Theoretical Method for Determining Mechanical Characteristics of Spherical Films and Membranes of Complex Structure," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 3, 58-66 (2011) [Mech. Solids (Engl. Transl.) 46 (3), 380-386 (2011)].
5.  S. N. Yakupov, "Mechanical Characteristics of Thin Titanium Oxide Coatings in the "Coating-Polymer Film" System," Mekh. Kompoz. Mater. Konstr. 16 (3), 436-444 (2010).
6.  S. N. Yakupov, "Way of Definition of Mechanical Characteristics of Thin Coverings in System "Covering-Substrate," in Abstracts. The Second International Competition of Scientific Papers in Nanotechnology for Young Researchers (Rusnanotech, Moscow, 2009), pp. 439-440.
7.  V. I. Zmievskii, I. A. Bodrov, and V. N. Krapotin, Method for Determining the Strength of Coating Adhesion to the Basic Material, Author's Certificate No. 183459 SSSR B.I. 1966. Bulletin No. 13.
8.  L. V. Logutova, N. M. Gunina, A. M. Chernikov, et al., Method for Determining the Film Adhesion to the Substrate RF Patent No. 689411, G 01 N 19/04 (1995).
9.  M. G. Kovaleva, A. Ya. Kolpakov, V. M. Nikitin, and V. A. Kharchenko, Method for Determining the Film Adhesion to the Substrate RF Patent No. 2207544, G 01 N 19/04 (2003).
10.  D. Taplin (Editor), Fracture Mechanics. Fracture of Materials (Mir, Moscow, 1979), pp. 216-226 [in Russian].
11.  R. V. Goldstein, V. M. Kozintsev, A. L. Popov, and G. N. Chernyshev, "A Theoretical and Experimental Method for Detection of the Delaminations of Thin Coatings," Prikl. Mat. Mekh. 64 (2), 332-336 (2000) [J. Appl. Math. Mech. (Engl. Transl.) 64 (2), 319-323 (2000)].
12.  R. V. Goldstein, N. M. Yakupov, R. G. Nurullin, et al., Method for Determining the Film Adhesion to the Substrate RF Patent No. 2421707 (2015).
13.  Kh. M. Mushtari and K. Z. Galimov, Nonlinear Theory of Thin Elastic Shells (Tatknigoizdat, Kazan, 1957; Program for Scientific Translations, Israel, 1961).
14.  N. M. Yakupov, "In a Method for Calculating Shells of Complex Geometry," in Proc. of the Seminar "Studies of Shell Theory," No. 17, Pt. 2 (KFTI KFAN SSSR, Kazan, 1984), pp. 4-17 [in Russian].
15.  M. S. Kornishin and N. M. Yakupov, "Spline Variant of the Finite-Element Method for Calculating Shells of Complex Geometry," Prikl. Mekh. 23 (3), 38-44 (1987) [Int. Appl. Mech. (Engl. Transl.) 23 (3), 238-243 (1987)].
16.  N. A. Weil and N. M. Newmark, "Large Deflections of Elliptical Plates," J. Appl. Mech. 23 (1), 21-26 (1956).
17.  N. K. Galimov, R. G. Nurullin, and A. A. Leontiev, "On Elastic Equilibrium of Clammed Circular Membranes under the Action of Uniform Pressure," in Actual Problems of Continuum Mechanics (KGU, Kazan, 2004), pp. 129-139 [in Russian].
Received 30 April 2013
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