Учебники 80346
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№ 2 (17), 2018 |
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= 600 |
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d = 2 |
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t = 200 oC |
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t = 200 oC |
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t = 200 oC |
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t = 200 oC |
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83
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№ 2 (17), 2018 |
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1.H. R., Mott W.R. Elecrolytic chromium // J. Phys. Chem., 1905. V.9. P. 231-256.
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, 2012. 284 . ISBσ 9965-02-362- . |
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2.2.5.1313-03 |
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, 2003. |
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4.Protsenko V.S., Kityk A. A., Danilov F.I. Kinetics and mechanism of chromium electrodeposition from methanesulphonate solutions of Cr (III) salts // Surf. Eng. Appl. Electrochem.2014. V.50. P. 384-389.
5.Phuong N.V., Kwon S.Ch., Lee J.Yu., Shin J., Huy B.Th., Lee Y.I. Mechanistic study on the effect of PEG molecules in a trivalent chromium electrodeposition process // Microchem. J. 2011. V.99. P. 7-14.
6.Kumar U. P., Kennady C. J. Characterization of Chromium Electrodeposits Obtained From Trivalent Electrolytes Containing Formaldehyde as Additive //
84
, |
№ 2 (17), 2018 |
Int J Thin Films Sci and Tech. 2015. V.4. P.147-153.
7.Lu C.E., Pu N.W., Hou K.H., Tseng C.C., Ger M.D. The effect of formic acid concentration on the conductivity and corrosion resistance of chromium carbide coatings electroplated with trivalent chromium // Applied Surface Science. 2013. V.282. P. 544-551.
8.Chia W.L., Hung B.L., Kung H.H., Shun Y.J., Chen E.L., Ming D.G. Characterization of the Cr-C/Si3N4 Composite Coatings Electroplated from a Trivalent Chromium Bath // ElectrochimActa. 2016. V.209. P. 244-253.
9.Castillejo F.E., Marulanda D.M., Olaya J.J., Alfonso J.E. Wear and corrosion resistance of niobium-chromium carbide coatings on AISI D2 produced through TRD // Surf Coat Technol. 2014. V.254. P. 104-111.
10.Kuznetsov V.V., Pavlov L.N., Vinokurov E.G., Filatova E.A., Kudryavtsev V.N. Corrosion resistance of Cr-C-W alloys produced by electrodeposi-
tion // J Solid State Electrochem. 2015. V.19. P. 2545-2553. |
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11. |
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Cr-C-А |
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(III) // |
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, 2016. 149 . |
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12. Jiang Y., Yang J.F., Xie Z.M., Gao R., Fang Q.F. Corrosion resistance of W-Cr-C coatings fabricated by spark plasma sintering method // Surf.
Coat.Technol. 2014.V.254. P. 202-206. |
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, 1997. .5. №1. |
. 14-19. |
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, 2007. |
.XV. №1. |
.16-22. |
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28. Zvyagintseva, A.V. Interaction peculiarities of hydrogen and Ni-B gal-
vanic alloys /A.V. Zvyagintseva // Carbon Nanomaterials in Clean Energy Hydrogen Systems. Springer, 2008. P. 437-442.
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.№ 2124072 |
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№ 93036355/02. |
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31. Zvyagintseva A.V., Kravtsova Y.G. The problem of hydrogen permea- |
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tion into the boron dored electrodeposited nikel films / NATO Security through Science – A: Chemistry aЧН BТШХШРв «HвНЫШРОЧ MКЭОЫТКХЬ SМТОЧМО КЧН CСОЦТЬЭЫв
ШП CКЫЛШЧ σКЧШЦКЭОЫТКХ», AC.J.P. CКЭКХШРЮО ЫОМШЫН ПШЫ ЭСТЬ ЛШШФ ТЬ КЯКТХКЛХО ПЫШЦ
the library of Congress. Springer, 2007. P. 661-664.
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1.H. R., W. R. Mott Elecrolytic chromium // J. Phys. Chem. In 1905. V. 9. P. 231-256.
2.Mamyrbaev A.A. Toxicology of chromium and its compounds: monograph. Aktobe, 2012. 284 p. ISBN 9965-02-362-X.
3.GN 2.2.5.1313-03 Maximum permissible concentrations (MPC) of harmful substances in the air of the working area. Hygienic standards of the Ministry of health of Russia. Moscow, 2003.
4.Protsenko V.S., Kityk A.A., Danilov F.I. Kinetics and mechanism of chromium electrodeposition from methanesulfonate solutions of Cr (III) sales // Surf. Eng. Appl. Electrochem.2014. V. 50. P. 384-389.
5.Phuong N.V., Kwon S.Ch., Lee J.Yu. Shin J., Kim B.Th., Lee Y.I. Mechanical study on the effect of PEG molecules in a trivalent chromium electrodeposition process // Microchem. J. 2011. V. 99. P. 7-14.
6.Kumar U.P., Kennady C.J. Characterization of Chromium Electrodeposits Obtained from Trivalent Electrolytes Containing Formaldehyde as Additive // Int J Thin Films Sci and Tech. 2015. V. 4. P. 147-153.
7.Lu C.E., Pu N.W., Hou K.H., Tseng C.C., Ger M.D. the effect of formal acid concentration on the conductivity and corrosion resistance of chromium carbide coatings electroplated with trivalent chromium // Applied Surface Science.
88
, |
№ 2 (17), 2018 |
2013. V. 282. P. 544-551.
8.Chia W.L., Hung B.L., Kung H.H., Shun Y.J., Chen E.L., Ming D.G. Characterization of the Cr-C/Si3N4 Composite Coatings Electroplated from a Trivalent Chromium Bath // ElectrochimActa. 2016. V. 209. P. 244-253.
9.Castillejo F.E., Marulanda D.M., Olaya J.J., Alfonso J.E. Wear and corrosion resistance of niobium-chromium carbide coatings on AISI D2 produced through TRD // Surf Coat Technol. 2014. V. 254. P. 104-111.
10.Kuznetsov V.V., Pavlov L.N., Vinokurov E.G., Filatova E.A., Kudryavtsev V.N. Corrosion resistance of Cr-C-W alloys produced by electrodeposition // J Solid State Electrochem. 2015. V. 19. P. 2545-2553.
11.Pavlov Ln. Electrodeposition Cr-C-W coatings from aqueous dimethylformamide solutions of chromium chloride (III) // Diss. kand. chem. sciences'. Moscow, 2016. 149 p.
12.Jiang Y., Yang J.F., Xie Z.M., Gao R., Fang Q.F. Corrosion resistance of W-Cr-C coatings fabricated by spark plasma sintering method // Surf. Coat.Technol. 2014.V. 254. P. 202-206.
13.Palicheva A.I., Burdykina R.I. Electrodeposition of chromium coatings from electrolytes containing trivalent chromium compounds // electroplating and surface treatment, 1997. Vol. 5. No. 1. P. 14-19.
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17.Zvyagintsev A.V., Shalimov Yu.N., Study of polarization in the electrodeposition of Nickel and Nickel-chromium alloy of sulfuric acid electrolytes containing hydroxy-and dicarboxylic acids. DEP. IN VINITI. 1988, № 11- . 185
89