Formation of structured coatings based on carbon and polyacrylamide, influence of thermal treatment on their phase composition and morphology
Problemy fiziki, matematiki i tehniki, no. 2 (2020), pp. 23-27.

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The morphological features of two-layer coatings based on polyacrylamide and carbon, formed in a single technological cycle by electron beam and cathode-pulse methods, respectively, are considered. The effect of heat treatment in air on the morphology, phase composition, and structural transformations in such two-layer systems is established. It was shown that heat treatment of a polyacrylamide layer in air (300$^\circ$ С, 60 minutes) leads to the complete disappearance of nitrile groups, which may be a consequence of cyclization.
Mots-clés : polyacrylamide, phase composition.
Keywords: carbon coatings, morphology
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A. S. Rudenkov; M. A. Yarmolenko. Formation of structured coatings based on carbon and polyacrylamide, influence of thermal treatment on their phase composition and morphology. Problemy fiziki, matematiki i tehniki, no. 2 (2020), pp. 23-27. http://geodesic.mathdoc.fr/item/PFMT_2020_2_a3/

[1] C. Donnet, A. Erdemir, Tribology of Diamond-like Carbon Films: Fundamentals and Applications, Springer Science Business Media, 2007, 680 pp.

[2] Y.X. Leng et al., “Mechanical properties and thermomechanical stability of diamond-like carbon films synthesized by pulsed vacuum arc plasma deposition”, Suraface and Coatings Technology, 173 (2003), 67–73

[3] C. Donnet, “Recent progress on the tribology of doped diamond-like and carbon alloy coatings: a review”, Surface and Coatings Technology, 100–101 (1998), 180–186

[4] S. Anders et al., “Effect of vacuum arc deposition parameters on the properties of amorphous carbon thin films”, Surface and Coatings Technology, 68–69 (1994), 388–393

[5] D.R. Tallant et al., “The thermal stability of diamond-like carbon”, Daimond and Related Materials, 4 (1995), 191–199

[6] F. Yang et al., “Effect of amorphous carbon on the tensile behavior of polyacrylonitrile (PAN)-based carbon fibers”, J. Mater. Sci., 54 (2019), 8800–8813

[7] P.A. Vityaz, N.A. Svidunovich, D.V. Kuis, Nanomaterialovedenie, uchebnoe posobie dlya studentov uchrezhdenii vysshego obrazovaniya po tekhnicheskim spetsialnostyam, Vysheishaya shkola, Minsk, 2015, 511 pp.

[8] A.V. Rogachev et al., “Chemical composition, morphology and optical properties of zincsulfide coatings deposited by low-energy electron beam evaporation”, Applied Surface Science, 303 (2014), 23–29

[9] L. Bellami, Infrakrasnye spektry slozhnykh molekul, Mir, M., 1963, 592 pp.

[10] H. Shirakawa, S. Ikeda, “Infrared Spectra of Poly (acetylene)”, Polymer Journal, 2:2 (1971), 231–244

[11] M. Cloutier et al., “Long-term stability of hydrogenated DLC coatings: Effects of aging on the structural, chemical and mechanical properties”, Diamond and Related Materials, 48 (2014), 65–72

[12] A.S. Ferrari, J. Robertson, “Interpretation of Raman spectra of disordered and amorphous carbon”, Physical Review B, 61 (2000), 4095–4107

[13] A. Haque, “Synthesis of diamond nanostructures from carbon nanotube and formation of diamond-CNT hybrid structures”, Carbon, 150 (2019), 388–395