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Eutectic solidification in the NaF-MgF2 system (1971)

Bright, M. W. A. ; Lewis, M. H.

Springer

Journal of materials science 6 (1971), S. 1246-1253

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ISSN: 1573-4803

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract The compound NaMgF3 occurs in the system NaF-MgF2 and forms a eutectic with either component. The eutectic between NaF and NaMgF3 has been unidirectionally solidified and the phase morphology and crystallography examined by optical and electron microscopy coupled with electron diffraction. Solidification with the “complex-regular” morphology from faceted cellular projections on the solid/liquid interface occurs for compositions on both sides of the eutectic point. Extensive regions of rod-like morphology occur in specimens where one of the macrofacet planes, constituting the faceted projections, is perpendicular to the direction of heat extraction. An analysis of twinning observed in the NaMgF3 phase shows that it occurs in accommodation of lattice strain associated with a distortion of the unit cell axes on cooling from the growth temperature. These small distortions involve a progressive reduction in crystal symmetry from a cubic high temperature form to orthorhombic at ambient temperatures. The twins are not associated with the eutectic growth process in providing re-entrant edges to facilitate coupled growth of the two phases.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00552037

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Controlled solidification of the eutectic LiF-MgF2 (1971)

Bright, M. W. A. ; Lewis, M. H.

Springer

Journal of materials science 6 (1971), S. 1012-1020

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ISSN: 1573-4803

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract A two-phase “model” composite material of LiF and MgF2 has been prepared by unidirectional solidification of the mixed eutectic fluoride. The microstructure has been examined by optical and electron microscopy. The morphology is that of regularly arranged rods of the MgF2 phase (rutile structure type) in a continuous LiF matrix. This microstructure is restricted to high purity materials with a planar solid-liquid interface and progressively degrades into a cellular lamellar structure associated with constitutional supercooling. The crystallographic orientation relation between the phases for the regular morphology has been determined as: Growth axis //[001]MgF2//[001]LiF, Preferred interfaces //(110)MgF2//(100)LiF and (1¯10)MgF2//(010)LiF.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00549953

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The superplastic flow of aluminium bronzes (1974)

Bright, M. W. A. ; Taplin, D. M. R.

Springer

Rheologica acta 13 (1974), S. 664-669

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ISSN: 1435-1528

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Summary Conditions for Newtonian viscous flow are met when the deformation stress level is low and the power series expansion for the rate of shear deformation as a function of stress may be terminated at first order. The constant of proportionality in this expression, the fluidity, is the reciprocal of the dynamic viscosity. Conventionally, the magnitude of this parameter has been used to distinguish fluids and solids. For liquids of low viscosity (~ 0.1 poise) flow is Newtonian viscous even at the highest practical shear rate (~ 105 sec−1). Hot glasses are deformed to high neck free elongations at a viscosity of ~ 107 poise. In crystalline solids a single term constitutive equation may still be proposed, relating stress to deformation rate via an exponentm, where 0.4≤m≤0.9. Here either solid state diffusion directly or grain boundary sliding accommodated by diffusion must be relied upon to produce conditions for Newtonian viscosity (m = 1). Expressions for viscosity, similarly defined as the ratio of stress to corresponding rate of deformation, may be deduced on the basis of a transgranular or intergranular diffusion path. Such calculations yield a viscosity value of ~ 105 poise. Prerequisite conditions for superplastic flow to approach the Newtonian viscous limit, resulting in large neck free elongations, are that the material grainsize be small (1–10 µm), the material be deformed at intermediate strain-rates and the deformation temperature be in excess of half the absolute melting temperature. In the aluminium bronzes employed in the present study, conditions for maximum superplastic flow occur in the two phase field above the eutectoïd transformation temperature (that is 700–900 °C). Here, unlike in most systems, constitution and temperature are related variables. For a specific alloy constitution, the material is characterised by an optimum temperature for superplastic flow which decreases with increasing Al content in the composition range 8.5–12% Al. This behaviour is discussed in relation to the distribution of phases.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01527057

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