Thermodynamics and Phase Diagrams of Materials

Pelton, Arthur D.

doi:10.1002/9783527603978.mst0384

Cited by 9 publications

(6 citation statements)

References 68 publications

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“…as long as the vapour pressure of the condensed phases is low compared to the oxygen pressure, the predominance (Ellingham) diagram of the system (Fig. 1), consisting of plots of the equilibrium oxygen fugacity versus temperature for reactions (2), can be easily computed from tabulated thermodynamic data [23,24]. The diagram area is divided into fields of predominance of a certain oxide, which is the oxide that will be formed because its formation is associated with the reduction of Gibbs energy of the system.…”

Section: Resultsmentioning

confidence: 99%

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On the effect of oxygen partial pressure on the chromium distribution coefficient in melt-grown ruby crystals

Ganschow

Klimm

Bertram

2011

Journal of Crystal Growth

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a b s t r a c tSmall ruby crystals were grown by the Czochralski technique in different atmospheres and their actual chromium content was analyzed by a wet chemical method. The chromium distribution coefficient k was found to be strongly dependent on oxygen partial pressure p O2 . It ranges from k ¼0.3 in a reducing atmosphere to k ¼1.2 in a slightly oxidizing atmosphere and to a good approximation k depends linearly on logp O2 . The experimental data are discussed on the basis of thermodynamic equilibrium calculations.

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Section: Resultsmentioning

confidence: 99%

“…Available thermodynamic data in the CrO-Cr 2 O 3 -Al 2 O 3 system including those of liquid and solid solutions permit calculation of phase equilibria for arbitrary (T, p O 2 ) conditions using numerical algorithms for Gibbs energy minimization [23,25,26]. In particular, sections of constant oxygen fugacity may be computed (Fig.…”

Section: Resultsmentioning

confidence: 99%

On the effect of oxygen partial pressure on the chromium distribution coefficient in melt-grown ruby crystals

Ganschow

Klimm

Bertram

2011

Journal of Crystal Growth

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“…Alternatively, studies of binary phase diagrams suggest that in the framework of the regular solution model, a negative enthalpy of mixing would decrease liquidus temperature T l , while positive enthalpy of mixing would enhance T l . 75 Thus, the negative enthalpy of mixing immediately leads to a highly reduced glass transition temperature T rg (= T g /T l ), which often serves as an indicator of the glass forming ability of materials. 76 Similarly, the strong impact of enhanced interactions on the glass formation in mixtures is also emphasized in ion-water solutions, where the addition of Li + ions into water is proven to favor the glass formation of aqueous solutions compared with Na + and K + ions due to the stronger ion-water interactions, while the latter two have either moderate or less interactions with water molecules.…”

Section: Discussionmentioning

confidence: 99%

Glass transition and mixing thermodynamics of a binary eutectic system

Chen

Gao

et al. 2014

Phys. Chem. Chem. Phys.

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A quantitative evaluation of the contribution of mixing thermodynamics to glass transition is performed for a binary eutectic benzil and m-nitroaniline system. The microcalorimetric measurements of the enthalpy of mixing give small and positive values, typically ~200 J mol(-1) for the equimolar mixture. The composition dependence of the glass transition temperature, T(g), is found to show a large and negative deviation from the ideal mixing rule. The Gordon-Taylor and Couchman-Karasz models are subsequently applied to interpret the T(g) behavior, however, only a small fraction of the deviation is explained. The analyses of the experimental results manifest quantitatively the importance of the mixing thermodynamics in the glass transition in miscible systems.

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“…The phase diagrams of the four binary alloys are shown in Fig.1 together with the compositional dependence of the activity coefficients,  , of the components, which indicate the degree of deviation of the real solution from the ideal mixing ( = 1), and are closely related with the interaction between unlike atoms in the alloys. The two cases of  < 1 and  > 1 mean the attractive and repulsive 4 interactions between unlike atoms, respectively [43]. The values of  of Ag-Cu, Sb-Pb, Au-Si and Ni-Zr alloys respectively are taken from the literature [44][45][46][47].…”

Section: Data Analysesmentioning

confidence: 99%

Thermodynamics of equilibrium and partitionless solidifications in glass forming binary eutectic alloys

Zhao

Gao

et al. 2016

Intermetallics

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T 0 curves in the phase diagrams have been proven useful to understand thermodynamically glass formation in metallic alloys, emphasizing the importance of the metastable solid solutions crystallized partitionlessly. Here we focus on four typical binary eutectic alloys with distinct glassforming abilities and interatomic interactions, Ag 60 Cu 40 , Sb 17.5 Pb 82.5 , Au 81.4 Si 18.6 , and Ni 24 Zr 76 . The thermodynamics involved in the liquid-solid solution transition at T 0 temperatures for the alloys of eutectic compositions are quantified, and the validity of the thermodynamic properties is evaluated.The comparison of the melting entropies for the equilibrium and partitionless solidifications reveals a basic relation. Based on the thermodynamics of the equilibrium phases and the solid solutions, an understanding of the glass formation of metallic alloys is proposed.

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Thermodynamics and Phase Diagrams of Materials

Abstract: The sections in this article are Introduction Notation Gibbs Energy and Equilibrium Gibbs Energy Chemical Equilibrium Predominance Diagrams Calculation of Predominance Diagrams Ellingham Diagrams as Predominance Diagrams … Show more

Cited by 9 publications

References 68 publications

On the effect of oxygen partial pressure on the chromium distribution coefficient in melt-grown ruby crystals

On the effect of oxygen partial pressure on the chromium distribution coefficient in melt-grown ruby crystals

Glass transition and mixing thermodynamics of a binary eutectic system

Thermodynamics of equilibrium and partitionless solidifications in glass forming binary eutectic alloys

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