Stress relaxation in beryllia

Walker, D. G.; Rotsey, W.B.; Wood, Bill

doi:10.1007/bf02403093

Cited by 3 publications

(1 citation statement)

References 18 publications

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“…Because this model takes into account the effect of chemical bonding in a liquid alloy (the difference in electronegativity, difference in electron density at the boundary between dissimilar atoms, hybridization energy) it may also be used for cases where an IC is in equilibrium with a saturated solution. If no IC or IP is formed in an M-Hg system one ought to employ the relation [24] -…”

Section: Solubility Of Metals In Mercurymentioning

confidence: 99%

Review Selected properties of simple amalgams

Gumiński

1989

J Mater Sci

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Experimental data on solubility, heat and kinetics of dissolution, diffusion and standard potentials of metals in mercury as well as the rate of the electrode process with an amalgam formation, have been collected and selected. A comparison has been made between the measured and predicted solubilities and heats of dissolution. The experimental diffusion coefficients have been analysed according to the simple Sutherland-Einstein equation; the average composition of diffusing particles in diluted amalgams have been estimated. The linear dependence between the logarithm of the rate constant of aquo-ion electroreduction on mercury and the metal solubility in mercury has been confirmed. No correlation of the dissolution rate of metals in mercury has been found. IntroductionIndisputably mercury (Hg), is the metal (M), most frequently used in pure and applied electrochemistry; other applications of mercury in metallurgy, inorganic and organic synthesis, dentistry, electronics, electrotechnics as well as heat transfer, seem to be less significant. From a scientific point of view, liquid mercury and amalgams are generally good models for liquid metals and alloys. For amalgams alone we have a fair collection of reliable data on thermodynamics, solubility and diffusion. Nevertheless, mercury and amalgams are not placed in the main stream of either solution chemistry or metal science.In the present paper an essential collection and evaluation has been achieved of the following data: the type of phase diagram M-Hg, solubility of the metal in mercury, heat and kinetics of dissolution of the metal in mercury, activity and diffusion coefficients of the metal in mercury, standard potentials of amalgams, kinetics of electroreduction of M n+ aquoions on mercury electrode. Most of these features change periodically through the elements table and show mutual interrelations. When possible, the experimental data (solubility, heat of dissolution, diffusion) are compared with theoretical predictions.

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Section: Solubility Of Metals In Mercurymentioning

confidence: 99%

Review Selected properties of simple amalgams

Gumiński

1989

J Mater Sci

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Literaturverzeichnis

Krönert¹,

Heintges²

1980

Untersuchung Der Bindung Hochtonerdehaltiger Materialien Durch Das Spannungs-Deformationsverhalten Im Torsionsversuch

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Creep of Beryllia Single Crystals

Corman

1992

Journal of the American Ceramic Society

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The compressive creep behavior of single-crystal B e 0 was studied under inert atmosphere. The steady-state creep behavior was highly anisotropic because of easily activated basal slip. Crystals compressed along a [1101] axis deformed at temperatures as low as 650°C, whereas [1100]-aligned crystals showed comparable strain rates at temperatures 2 1650°C. The measured activation energies and stress exponents for creep were 371 kJ/mol and 4.65 f o r j h e [1101] alignment and 496 kJ/mol and 3.39 for the [1100] alignment, respectively. The precise mechanisms controlling creep behavior were not determined. Only one semiquantitative data point was obtained for the [OOOl] alignment, which indicates that the creep rate at 100 MPa and 1750°C is less than that for c-axis sapphire. [

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Stress relaxation in beryllia

Cited by 3 publications

References 18 publications

Review Selected properties of simple amalgams

Review Selected properties of simple amalgams

Literaturverzeichnis

Creep of Beryllia Single Crystals

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