Temperature dependence of the surface tension of indium

Алчагиров, Б. Б.; Dadashev, R. Kh.; Dyshekova, F. F.; Elimkhanov, D. Z.

doi:10.1134/s0036024413050026

Cited by 7 publications

(6 citation statements)

References 15 publications

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“…It is seen in Fig. 7 that the data [82] are in good agreement with the polyterm of the ST σ(Т), obtained in [51], and at the melting temperature of indium they virtually coincide.…”

Section: Status Of Investigations Of the Temperature Dependence Of Thsupporting

confidence: 76%

“…6 2014 higher than when the aluminum oxide substrate is used [133]. The reference data on the ST of indium, summa rized in Table 1, were obtained by different experimen tal methods, but many of them have not been agreed sufficiently satisfactorily [38,82,134]. For example, the temperature dependences of the surface tension σ(Т) of indium and some other pure metals were simultaneously determined by the maximum gas bub ble pressure and sessile large drop methods [38].…”

Section: Factors Affecting a Determination Accuracy Of The St Of Liqumentioning

confidence: 99%

“…In works [82,91] the authors experimentally studied the dependence of the measured indium ST data on the determination method used. The processing of data obtained by the least squares method (Fig.…”

Section: Factors Affecting a Determination Accuracy Of The St Of Liqumentioning

confidence: 99%

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The surface tension of indium: Methods and results of investigations

et al. 2014

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The primary results of investigations of the surface tension (ST) of indium for the last six decades are considered in this review, and original data on the temperature dependence of the ST of indium obtained by authors using the sessile large drop and maximal drop pressure methods are given. Primary attention is paid to analyzing the possible methodological drawbacks of experimental studies, in which surface tension values of pure indium and some other metals, significantly exceeding the ST data, determined by traditional classic meth ods, are obtained. In the authors' opinion, the cleaning of the studied metal surfaces by heavy ion bombard ments of inert gases, which is used in similar works, cannot guarantee obtaining true surface tension values.

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“…It is seen in Fig. 7 that the data [82] are in good agreement with the polyterm of the ST σ(Т), obtained in [51], and at the melting temperature of indium they virtually coincide.…”

Section: Status Of Investigations Of the Temperature Dependence Of Thsupporting

confidence: 76%

Section: Factors Affecting a Determination Accuracy Of The St Of Liqumentioning

confidence: 99%

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The surface tension of indium: Methods and results of investigations

et al. 2014

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“…Assuming that the interfacial surface tension between the liquid metal and the dielectric during the drawing is dominated by the surface tension of the metal, the replacement of the selected system from indium/PMMA to tin/soda-lime does not change considerably the gain term . for tin/soda-lime system, both metals exhibit a surface tension in the order of 0.5 N/m [27], [28], [29]. Further characterization of the interfacial surface tension between the materials in their respective drawing temperatures is required for a more accurate analysis.…”

Section: Drawingmentioning

confidence: 99%

Fabrication of Soft-Glass-Based Wire Array Metamaterial Fibers for Applications at Infrared Frequencies

Hayashi

Lwin

Stefani

et al. 2019

J. Lightwave Technol.

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“…For example, there are different expressions for the surface energy of pure components in liquid phase according to different references 34,36,46,47 . For example, there are different expressions for the surface energy of pure components in liquid phase according to different references 34,36,46,47 .…”

Section: Melting Point Of Insbmentioning

confidence: 99%

Size- and shape-dependent phase diagram of In–Sb nano-alloys

et al. 2015

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Nano-scale alloy systems with at least one dimension below 100 nm have different phase stabilities than those observed in the macro-scale systems due to a large surface to volume ratio. We have used the semi-empirical thermodynamic modelling, i.e. the CALPHAD method, to predict the phase equilibria of the In-Sb nano-scale systems as a function of size and shape. To calculate the size- and shape-dependent phase diagram of the In-Sb system, we have added size-dependent surface energy terms to the Gibbs energy expressions in the In-Sb thermodynamic database. We estimated the surface energies of the solution phases and of the InSb intermetallic phase using the Butler equation and DFT calculations, respectively. A melting point and eutectic point depression were observed for both nanoparticle and nanowire systems. The eutectic composition on the In-rich and Sb-rich sides of the phase diagram shifted towards higher solubility. We believe that the phase diagram of In-Sb nano-alloys is useful for an increased understanding of the growth parameters and mechanisms of InSb nanostructures.

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Temperature dependence of the surface tension of indium

Cited by 7 publications

References 15 publications

The surface tension of indium: Methods and results of investigations

The surface tension of indium: Methods and results of investigations

Fabrication of Soft-Glass-Based Wire Array Metamaterial Fibers for Applications at Infrared Frequencies

Size- and shape-dependent phase diagram of In–Sb nano-alloys

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