Measurements of Heat of Fusion and Specific Heat of Gold Binary Compounds and Derivation of Excess Free Energy of Mixing in Liquid Gold Binary Alloys

The recently introduced four atom cluster model is used to obtain higher order conditional probabilities that describe the atomic correlations in some molten binary alloys. Although the excess free energy of mixing for all the systems studied are almost symmetrical about the equiatomic composition, most other thermodynamic quantities are not and thus, the study enables us to explain the subtle differences in their physical characteristics required to describe the mechanism of the observed strong heterocoordination in Au–Zn or homocoordination in Cu–Ni within the same framework. More importantly, we obtain all calculated quantities for the whole concentration range thus complimenting experimental evidence.

Download Full-text

Calculation of Darken Stability Functions of Al-In and Bi-Zn Binary Liquid Alloys

Jordan Journal of Physics ◽

10.47011/14.2.2 ◽

2021 ◽

Vol 14 (2) ◽

pp. 111-116

Keyword(s):

Free Energy ◽

Activity Ratio ◽

Binary Alloys ◽

Concentration Fluctuation ◽

Nearest Neighbour ◽

Stability Function ◽

Energy Of Mixing ◽

Neighbour Shell ◽

Free Energy Of Mixing ◽

The Ideal

Abstract: The thermodynamic model based on clustering of two atoms is considered with the view to obtain the concentration-concentration fluctuation, Scc(0) and the darken stability function. The thermodynamic properties of these alloys were evaluated based on clustering of two atoms (A & B) or (B & A). Each system has the view of obtaining concentration-concentration fluctuation, Scc(0) enumerating the low-order atomic correlation in the nearest neighbour shell of liquid binary alloys. The highlights of reciprocals of Scc(0) of these alloys were noted . The values of Scc(0) for Al-In alloy throughout the entire concentration were positive and higher for activity ratio and lower than the ideal solution values for free energy of mixing at specific Al composition. The values of darken stability function of Al-In alloy fall below the ideal darken stability function for activity ratio and free energy of mixing . The indication of the reciprocal of Scc(0) for all the alloys is in support of homocoordination / heterocoordination in the nearest neighbour shell. The Scc(0) and darken stability function of Bi-Zn binary alloys were noted with fluctuations. Keywords: Concentration-concentration fluctuation, Darken stability function, Ordering energy.

Download Full-text

Theoretical investigations on temperature dependence of thermodynamic properties and concentration fluctuations of In-Tl binary liquid alloys by optimization method

BIBECHANA ◽

10.3126/bibechana.v15i0.18470 ◽

2017 ◽

Vol 15 ◽

pp. 11-23

Author(s):

G K Shrestha ◽

I S Jha ◽

B K Singh

Keyword(s):

Free Energy ◽

Liquid Alloy ◽

Entire Range ◽

Excess Free Energy ◽

Concentration Fluctuations ◽

Binary Liquid ◽

Energy Of Mixing ◽

Different Temperatures ◽

Free Energy Of Mixing ◽

Best Fit

The thermodynamic properties, i.e. free energy of mixing (GM), heat of mixing (HM), entropy of mixing (SM) and activity (ai) of the component i (i , and structural property i.e. concentration fluctuations in long wave-length limit [Scc(0)] of In-Tl binary liquid alloy at a specified temperature have been investigated in the framework of quasi-lattice model on assuming the coupled effect of size ratio and entropic (or energetic) as well as enthalpic effect. These properties of In-Tl liquid alloy at 723 K have been computed theoretically by estimating the best fit value of order energy parameter (W) and size ratio () over the entire range of concentration in order to match their experimental values. The best fit value of W at 723 K has been used to determine the values of W at different temperatures with the help of temperature derivative of W which are then used for the optimization procedure in order to calculate the corresponding values of excess free energy of mixing, partial excess free energy of mixing and activity of the components involved in the alloy at different temperatures. These parameters have been used to investigate the concentration fluctuations in long wavelength limit {Scc(0)} of In-Tl binary liquid alloy at different temperatures over the entire range of concentration which have been used to predict the various other structural properties like excess stability function (EXS), diffusion coefficient ratio (Dm/Did), short range order parameter (α1) at different temperatures.BIBECHANA 15 (2018) 11-23

Download Full-text

The rubidium chloride – sodium chloride phase diagram

Canadian Journal of Chemistry ◽

10.1139/v70-582 ◽

1970 ◽

Vol 48 (22) ◽

pp. 3483-3486 ◽

Cited By ~ 7

Author(s):

A. D. Pelton ◽

S. N. Flengas

Keyword(s):

Phase Diagram ◽

Free Energy ◽

Sodium Chloride ◽

Excess Entropy ◽

Excess Free Energy ◽

Thermochemical Data ◽

Cooling Curves ◽

Molar Excess ◽

Energy Of Mixing ◽

Free Energy Of Mixing

The phase diagram of the RbCl–NaCl system has been measured by the method of cooling curves. By combining these data with available thermochemical data for the system, the integral molar excess free energy of mixing at 800 °C has been calculated as ΔGE = −632XRbClXNaCl cal/mole; and the integral molar excess entropy of mixing has been calculated as ΔSE = −0.208XRbClXNaCl cal/°K mole. Estimated precisions are ±50 cal for ΔGE and ±0.05 cal/°K mole for ΔSE at XRbCl = XNaCl = 0.5.

Download Full-text

Theory of Immiscibility in Mineral Systems

Mineralogical Magazine and Journal of the Mineralogical Society ◽

10.1180/minmag.1964.033.266.09 ◽

1964 ◽

Vol 33 (266) ◽

pp. 1015-1023 ◽

Cited By ~ 3

Author(s):

Robert F. Mueller

Keyword(s):

Free Energy ◽

Excess Free Energy ◽

Standard Free Energy ◽

Regular Solutions ◽

Qualitative Interpretation ◽

Energy Of Mixing ◽

Mineral Assemblages ◽

Free Energy Of Mixing ◽

The Stability ◽

End Members

SummaryThe theoretical basis for the stability of binary and quasi-binary solutions is discussed with special emphasis on miscibility relations. Solutions of the distribution equations are presented for the case of two and three coexisting regular solutions and this model is used to illustrate the energetics of miscibility relations. The same principles are then extended to give a qualitative interpretation to sequences of mineral assemblages consisting of pyroxenes, amphiboles, micas, and feldspars. A formulation is presented for the intrinsic stability of a solution, which depends on the presence or absence of an excess free energy of mixing, and the extrinsic stability of a solution, which depends on the standard free energy of the component end members.

Download Full-text

Gibb‘s Excess Free Energy of Mixing

Zeitschrift für Physikalische Chemie ◽

10.1515/zpch-1972-25116 ◽

1972 ◽

Vol 251O (1) ◽

Author(s):

M. P. Khosla ◽

B. S. Mahl ◽

S. L. Chopra ◽

P. P. Singh

Keyword(s):

Free Energy ◽

Excess Free Energy ◽

Energy Of Mixing ◽

Free Energy Of Mixing

Download Full-text

Excess free energies of mixing at temperatures below 25°. Isopiestic measurements on the systems H2O-NaCl-Na2SO4 and H2O-NaCl-MgSO4

Australian Journal of Chemistry ◽

10.1071/ch9712487 ◽

1971 ◽

Vol 24 (12) ◽

pp. 2487 ◽

Cited By ~ 23

Author(s):

CW Childs ◽

RF Platford

Keyword(s):

Free Energy ◽

Vapour Pressure ◽

Excess Free Energy ◽

Pressure Measurements ◽

Experimental Uncertainty ◽

Free Energies ◽

Isopiestic Measurements ◽

Temperature Range ◽

Energy Of Mixing ◽

Free Energy Of Mixing

Isopiestic vapour pressure measurements have been made on the systems H2O-NaCl-Na2SO4 and H2O-NaCl-MgSO4 at 15� and 0�. Excess free energies of mixing the aqueous salts hare been calculated for various ionic strengths, and the results have been compared with those previously obtained at 25�. �� Within experimental uncertainty the excess free energies of mixing of aqueous NaCl with aqueous Na2SO4 are the same at 0�, 15�, and 25�. However, the excess free energy of mixing aqueous NaCl with aqueous MgSO4 shows differences which may be just larger than experimental uncertainty over the same temperature range.

Download Full-text