Плотность упаковки и кажущийся удельный объем модельных и реальных растворов

[3] Balankina E.S. Influence of Size and Packing of the Molecules on the

Thermodynamic Properties of Mixtures.

Teplofizika vysokikh temperatur

[High

Temperature], 2009, no. 1, pp. 61–67 (in Russ.).

[4] Gray W.A.The packing of solid particles. London, Chapman and Hall Ltd., 1968.

[5] Haughey D.P., Beveridge G.S.G. Structural properties of packed beds — a review.

Can. J. Chem

Eng

., 1969, vol. 47, pp. 130–140.

[6] Bek G., Gyunterodt G., eds. Russ. Ed.: Metallicheskie stekla. Vyp. II. Atomnaya

struktura i dinamika, elektronnaya struktura i magnitnye svoystva [Metallic Glasses.

Vol. II. Atomic Structure and Dynamics, Electronic Structure and Magnetic

Properties]. Moscow, Mir Publ., 1986. 456 p.

[7] Smith L.N. Knowledge–based system for powder metallurgy technology. London,

Professional Engineering Publishing, 2003, 255 p.

[8] Furnas C.C. Grading aggregates. II. The application of mathematical relations for

beds of broken solid of maximum density.

Ind. Eng. Chem

., 1931, vol. 23, nо. 9,

p. 1058.

[9] Meng L., Lu P., Li Sh., Zhao J., Li T. Shape and size effects on the packing density

of binary spherocylinders.

Powder Thechnology

, 2012, vol. 228, p. 284.

[10] Shatalova I.G., Gorbunov N.S., Likhtman V.I. Fiziko-khimicheskie osnovy

vibratsionnogo uplotneniya poroshkovykh materialov [Physical and Chemical

Foundation of Vibration Compaction of Powder Materials]. Moscow, Nauka Publ.,

1965. 221 p.

[11] Clarke A.S., Willey J.D. Numerical simulation of the dense random packing of a

binary mixture of a hard spheres.

Phys. Rev

, 1987, vol. 35, p. 7350.

[12] He D., Ekere N.N., Cai L. Computer simulation of random packing of unequal

spheres.

Phys. Rev. E.

, 1999, vol. 60, nо. 6, p. 7098.

[13] Yu A.B., Zou R.P., Standish N. Packing of ternary mixtures of nonspherical particles.

Journal of Am. Ceram. Soc

., 1992, vol. 75, nо. 10, pp. 2765–2772.

[14] Danish M., Jin Yu., Maske H.A. Model of random packing of different size balls.

Phys. Rev

, 2010, vol. 81, p. 051303.

[15] Balankina E.S., Lyashchenko A.K. Acoustic Properties and Structures of Liquids

Materialy XV sessii Rossiyskogo akusticheskogo obshchestva

. Moscow, GEOS Publ.,

2004, vol. 1, p. 104 (in Russ.).

[16] Adamenko I.I. Vliyanie davleniya na termodinamicheskie svoystva molekulyarnykh

zhidkostey i ikh rastvorov [The Effect of Pressure on the Thermodynamic Properties

of Molecular Liquids and Their Solutions]. Avtoreferat diss. doct. tekhn. nauk [Dr.

eng. sci. diss. abstr.]. Kiev, 1991.

[17] Marcus Y. Ion solvation. N.Y., John Wiley & Sons. 1985. 306 p.

[18] Goates J.R., Ott J.B., Grigg R.B. Excess volumes of n-hexane + n-heptane, + n-octane,

+ n-nonane, and + n-decane at 283.15, 298.15, and 313.15 K.

J. Chem. Thermod

1981, vol. 13, p. 907.

[19] Benson G.C., Pflug H.D. Molar excess volumes of binary systems of normal alcohols

at 25 C.

J. Chem. Eng. Data

, 1970, vol. 15, nо. 3, p. 382.

[20] Zarei H.A. Densities, excess molar volumes and partial molar volumes of binary

mixtures of acetic acid + alkanol (C

–C

) at 298.15 K.

J. Mol. Liq

., 2007, vol. 130,

pp. 74–78.

[21] Orge B., Rodriguez A., Canosa J.M., Marino G., Iglesias M. Variation of densities,

refractive indices and speeds of sound with temperature of methanol or ethanol with

hexane, heptane and octane.

J. Chem. Eng. Data

, 1999, vol. 44, pp. 1041–1047.

[22] Benson G.C., Kiyohara O. Thermodynamics of aqueous mixtures of nonelectrolytes.

I. Excess volume of water-

-alcohol mixtures at several temperatures.

J. Solut. Chem

1980, vol. 9, p. 791.

[23] Huot J.-Y., Battiestel E., Lumry R., Villeneuve G., Lavalle J.-F., Anusiem A.,

Jolicoeur C. A comprehensive thermodynamic investigation of water-ethylene glycol

mixtures at 5, 25 and 45 C.

J. Solut. Chem

., 1988, vol. 17, nо. 7, p. 601.

ISSN 1812-3368. Вестник МГТУ им. Н.Э. Баумана. Сер. “Естественные науки”. 2015. № 4

139