Controlling Thermal Conductivity of Alloys via Atomic Ordering

John C. Duda; Timothy S. English; William A. Soffa; Donald A. Jordan; Pamela M. Norris

Source: Journal of Heat Transfer:;2012:;volume( 134 ):;issue: 001::page 14501

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DOI: 10.1115/1.4004843

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Many random substitutional solid solutions (alloys) will display a tendency to atomically order given the appropriate kinetic and thermodynamic conditions. Such order–disorder transitions will result in major crystallographic reconfigurations, where the atomic basis, symmetry, and periodicity of the alloy change dramatically. Consequently, phonon behavior in these alloys will vary greatly depending on the type and degree of ordering achieved. To investigate these phenomena, the role of the order–disorder transition on phononic transport properties of Lennard–Jones type binary alloys is explored via nonequilibrium molecular dynamics simulations. Particular attention is paid to regimes in which the alloy is only partially ordered. It is shown that by varying the degree of ordering, the thermal conductivity of a binary alloy of fixed composition can be tuned across an order of magnitude at 10% of the melt temperature, and by a factor of three at 40% of the melt temperature.

keyword(s): Alloys , Phonons , Thermal conductivity , Temperature , Molecular dynamics simulation , Atoms AND Density ,

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Controlling Thermal Conductivity of Alloys via Atomic Ordering

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contributor author	John C. Duda
contributor author	Timothy S. English
contributor author	William A. Soffa
contributor author	Donald A. Jordan
contributor author	Pamela M. Norris
date accessioned	2017-05-09T00:52:35Z
date available	2017-05-09T00:52:35Z
date copyright	January, 2012
date issued	2012
identifier issn	0022-1481
identifier other	JHTRAO-27930#014501_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/149577
description abstract	Many random substitutional solid solutions (alloys) will display a tendency to atomically order given the appropriate kinetic and thermodynamic conditions. Such order–disorder transitions will result in major crystallographic reconfigurations, where the atomic basis, symmetry, and periodicity of the alloy change dramatically. Consequently, phonon behavior in these alloys will vary greatly depending on the type and degree of ordering achieved. To investigate these phenomena, the role of the order–disorder transition on phononic transport properties of Lennard–Jones type binary alloys is explored via nonequilibrium molecular dynamics simulations. Particular attention is paid to regimes in which the alloy is only partially ordered. It is shown that by varying the degree of ordering, the thermal conductivity of a binary alloy of fixed composition can be tuned across an order of magnitude at 10% of the melt temperature, and by a factor of three at 40% of the melt temperature.
publisher	The American Society of Mechanical Engineers (ASME)
title	Controlling Thermal Conductivity of Alloys via Atomic Ordering
type	Journal Paper
journal volume	134
journal issue	1
journal title	Journal of Heat Transfer
identifier doi	10.1115/1.4004843
journal fristpage	14501
identifier eissn	1528-8943
keywords	Alloys
keywords	Phonons
keywords	Thermal conductivity
keywords	Temperature
keywords	Molecular dynamics simulation
keywords	Atoms AND Density
tree	Journal of Heat Transfer:;2012:;volume( 134 ):;issue: 001
contenttype	Fulltext

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