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Drazic

However, Despic and Drazic found that the reaction rate was dependent on the concentration of both Fe t and OHand that... [Pg.105]

Bockris, J. O M. and Drazic, D., Electro-chemical Science, Taylor and Francis, London (1972)... [Pg.114]

Bockris, J. O M. and Reddy, A. K. N., Modern Electrochemistry, Macdonald, London (1971) Bockris, J. O M. and Drazic, D., Electro-chemical Science, Taylor and Francis, London (1972) Davies, C. W., Electrochemistry, Newnes, London (1967)... [Pg.114]

Fig. 20.7 Differential capacitance/mercury electrode potential relationships for potassium chloride at different concentrations showing (a) how minima are obtained only at low concentrations and (6) the constant capacitance at negative potentials (after Bockris and Drazic )... Fig. 20.7 Differential capacitance/mercury electrode potential relationships for potassium chloride at different concentrations showing (a) how minima are obtained only at low concentrations and (6) the constant capacitance at negative potentials (after Bockris and Drazic )...
D. M. Drazic, A. R. Despic. L. Gajic, and L. Atanasoska, 34th ISE Meeting, Erlangen, Germany, September 1983, Abstract 1105. [Pg.497]

L. M. Vracar and D. M. Drazic, J. Electroanal. Chem. 265 171 (1989). More knowledge from current potential curves. [Pg.475]

Gojkovic, S.L., Zecevic, S.K., and Drazic, D.M., Hydrogen peroxide oxidation on passive iron in alkaline solutions, Electrochim. Acta, 37(10), 1845-1850, 1992. [Pg.543]

Fig. 12.22. Cell for partial H30+ discharge current (/H) measurements. A, Anodic compartment B, cathodic compartment C, capillary (diameter 0.3 mm) W, water jacket Fe, iron test electrodes E, reference electrode X, T, Z, Teflon taps G, taps for connection with Nichrome furnaces. (Reprinted from J. O M. Bockris, A. Despic, and D. M. Drazic, Electrochim Acta 32 p. 329, copyright 1961, Fig. 1 with permission from Elsevier Science). Fig. 12.22. Cell for partial H30+ discharge current (/H) measurements. A, Anodic compartment B, cathodic compartment C, capillary (diameter 0.3 mm) W, water jacket Fe, iron test electrodes E, reference electrode X, T, Z, Teflon taps G, taps for connection with Nichrome furnaces. (Reprinted from J. O M. Bockris, A. Despic, and D. M. Drazic, Electrochim Acta 32 p. 329, copyright 1961, Fig. 1 with permission from Elsevier Science).
These kinetic results agree with the facts for 0 < pH < 4 which, together with the mechanism, were first published by Bockris, Drazic, and Despic (1961). [Pg.156]

In alkaline solutions, the mechanism changes. Modem views on it have developed from those of Hackerman (1962) to the present position (Drazic and Hao, 1992) ... [Pg.156]

Fig. 12.23. General reaction scheme for iron dissolution (Redrawn from D. M. Drazic, in Modem Aspects of Electrochemistry, No. 19, Plenum, 1989). Fig. 12.23. General reaction scheme for iron dissolution (Redrawn from D. M. Drazic, in Modem Aspects of Electrochemistry, No. 19, Plenum, 1989).
J. O M. Bockris, D. Drazic, and A. Despic, Electrochim Acta 4 325 (1961). First determination of the cathodic Fe2+ deposition current by significantly accurate measurements of the co-evolved H2 mechanism of the corrosion of iron in acid solution. [Pg.167]

D. Drazic and V. Vassic, J. Electroanal. Chem. 155 229 (1985). Theoretical analysis of the electrochemical corrosion rate measurement. [Pg.167]

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See also in sourсe #XX -- [ Pg.361 ]



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