MENDIS, C. L.; BETTLES, C. J.; GIBSON, M. A.; HUTCHINSON, Christopher R.; GORSSE, Stéphane

doi:10.1080/09500830600871186

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MENDIS, C. L.
School of Physics and Materials Engineering

BETTLES, C. J.
School of Physics and Materials Engineering
Division of Manufacturing Science and Technology [CSIRO]

GIBSON, M. A.
Division of Manufacturing Science and Technology [CSIRO]

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Philosophical Magazine Letters. 2006, vol. vol. 86, n° 7, p. p. 443-456

Taylor & Francis

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It has been known for some time that trace additions ( 2 Sn phase formed, although a substantial refinement of the distributions is observed. In the case of Na additions, the number density of particles is increased by two orders of magnitude, resulting in hardening increment increases of 270%. The In+Li additions lead to increases of approximately one order of magnitude in number density and 150% increases in the hardening increment. The generality of the observed effects and the resulting hardening responses are discussed.< Réduire

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Aluminium

Microalloys

Magnesium

Tin

Atom-probe

Phase

Additions

Thermodynamic

Hardeness

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Refinement of precipitate distributions in an age-hardenable Mg-Sn alloy through microalloying

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