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Shinoda

F. M. Fowkes, in Solvent Properties of Surfactant Solutions, K. Shinoda, ed., Marcel Dekker, New York, 1967. [Pg.497]

K. Shinoda and S. Friberg, Emulsions and Solubilization, Wiley, New York, 1986. [Pg.528]

See K. J. Mysels, K. Shinoda, and S. Frankel, Soap Films, Studies of Their Thinning and a Bibliography, Pergamon, New York, 1959. [Pg.535]

K. Shinoda, Kagaku Kaishi, 1973, p. 527 Chem. Abstr. 79, 4644s, 4649x, 4650r (1973). [Pg.91]

K. Shinoda, T. Nakagawa, B. I. Tamamushi, and T. Isemura, Colloidal Surfactants, Academic Press, Inc., New York, 1963. [Pg.29]

K. Shinoda, K. Yasuda, andD. Miyatani, Mippon Kayaku (KaishiJS, 724—729 (1988). [Pg.484]

W. Shinoda, T. Fukada, S. Okazaki, I. Okada. Chem Phys Lett 232 308-312, 1995 W. Shinoda, N. Namiki, S. Okazaki. J Chem Phys 706 5731-5743, 1996. [Pg.677]

Solvent Properties of Surfactant Solutions, edited by Kozo Shinoda (see Volume 55)... [Pg.952]

This approach to solution chemistry was largely developed by Hildebrand in his regular solution theory. A regular solution is one whose entropy of mixing is ideal and whose enthalpy of mixing is nonideal. Consider a binary solvent of components 1 and 2. Let i and 2 be numbers of moles of 1 and 2, 4>, and 4>2 their volume fractions in the mixture, and Vi, V2 their molar volumes. This treatment follows Shinoda. ... [Pg.413]

Shinoda. K. Principles of Solulion and Solubility Dekker New York, 1978 Chapter 4. [Pg.459]

BCJ2356 K. Hiraki, N. Ochi, T. Kitamura, Y. Sasada, and S. Shinoda, Bull. Chem. [Pg.230]

Takeochi,Y,S Kawaliara,T So2oki,T Kji2omi,andH Shinoda / Ofg CVie n., 61, 301 G996j... [Pg.229]

With increasing water content the reversed micelles change via swollen micelles 62) into a lamellar crystalline phase, because only a limited number of water molecules may be entrapped in a reversed micelle at a distinct surfactant concentration. Tama-mushi and Watanabe 62) have studied the formation of reversed micelles and the transition into liquid crystalline structures under thermodynamic and kinetic aspects for AOT/isooctane/water at 25 °C. According to the phase-diagram, liquid crystalline phases occur above 50—60% H20. The temperature dependence of these phase transitions have been studied by Kunieda and Shinoda 63). [Pg.8]

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See also in sourсe #XX -- [ Pg.179 ]



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