Ultrasonic behaviour of methyl methacrylate+hydrocarbon mixtures at 298.15 and 308.15 K

“…The viscosity data for the binary and ternary mixtures were fitted to Nissan and Grunberg [10][11][12], Hind et al [11][12][13][14], Katti and Chaudhri [11,12,15], McAllister [11,12,16], Heric [11,12,17], Frenkel [11,12,18], and Iulan et al [11,12,19] and their parameters have been calculated. Theoretical models dealing with liquid state including Jacobson free length theory (FLT) [20][21][22][23], Schaaff collision factor theory (CFT) [21,23,24], Nomoto relation (NR) [21,25], Junjie relation (JR) [21,26] and Van Deal ideal mixing relation (IMR) [21,27] have been proposed for the prediction of the speeds of sound and isentropic compressibilities of the binary and ternary mixtures.…”

Excess molar volumes, viscosities, and speeds of sound of the ternary mixture {1-heptanol (1)+trichloroethylene (2)+methylcyclohexane (3)} at T=298.15K

“…The viscosity data for the binary and ternary mixtures were fitted to Nissan and Grunberg [10][11][12], Hind et al [11][12][13][14], Katti and Chaudhri [11,12,15], McAllister [11,12,16], Heric [11,12,17], Frenkel [11,12,18], and Iulan et al [11,12,19] and their parameters have been calculated. Theoretical models dealing with liquid state including Jacobson free length theory (FLT) [20][21][22][23], Schaaff collision factor theory (CFT) [21,23,24], Nomoto relation (NR) [21,25], Junjie relation (JR) [21,26] and Van Deal ideal mixing relation (IMR) [21,27] have been proposed for the prediction of the speeds of sound and isentropic compressibilities of the binary and ternary mixtures.…”

Excess molar volumes, viscosities, and speeds of sound of the ternary mixture {1-heptanol (1)+trichloroethylene (2)+methylcyclohexane (3)} at T=298.15K

“…Our laboratory has been actively engaged in reporting various thermophysical properties of binary and ternary mixtures consisting of acrylic esters + 1-alcohols [1][2][3][4][5][6][7][8][9], + alkoxyethanols [6,7] and + aliphatic [9][10][11][12][13][14] and aromatic [15,16] hydrocarbons. Such studies have tremendous academic and industrial importance.…”

“…These include excess molar volumes of methyl-t-butyl ether/ethylt-butyl ether + toluene [17], diisopropyl ether + benzene, + toluene, + o-, m-, and p-xylenes at T ¼ 308: 15 K [18], diisopropyl ether + benzene, or + toluene at T ¼ 298:15 K [19] and ethyl -1,-1, dimethylpropyl ether + benzene at T ¼ (298. 15 and 308.15) K [20]. As far as we are aware, no reports exist on thermophysical properties of dibutyl ether + aromatic hydrocarbons.…”

Measurements of densities, viscosities, speeds of sound and relative permittivities and excess molar volumes, excess isentropic compressibilities and deviations in relative permittivities and molar polarizations for dibutyl ether+benzene,+toluene and+p-xylene at different temperatures

“…[13,14]. The densities, q and speeds of sound, u values of the purified liquids (measured by using a density and sound analyzer, Anton Paar DSA 5000) are listed in Table 1 [13][14][15][16][17][18][19][20][21][22][23][24]. The density and speed of sound values of the pure liquids were measured in the manner as described elsewhere [25,26].…”

“…The joule effect calibration was checked by measuring heat of fusion of naphthalene, 147.78 JÁg -1 , comparable to 148.7 JÁg -1 [27]. The heat capacities of the pure liquids along with their literature values are reported in Table 1 [12,18,21,23,[28][29][30][31]]. …”

Excess Heat Capacities of Binary Mixtures Containing o-Chlorotoluene and Pyridine or Isomeric Picolines or Aromatic Hydrocarbons