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contributor authorYuksel, Anil
contributor authorYu, Edward T.
contributor authorCullinan, Michael
contributor authorMurthy, Jayathi
date accessioned2022-02-04T14:35:47Z
date available2022-02-04T14:35:47Z
date copyright2020/01/13/
date issued2020
identifier issn0022-1481
identifier otherht_142_03_032501.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4273989
description abstractNanoparticle heating due to laser irradiation is of great interest in electronic, aerospace, and biomedical applications. This paper presents a coupled electromagnetic-heat transfer model to predict the temperature distribution of multilayer copper nanoparticle packings on a glass substrate. It is shown that heat transfer within the nanoparticle packing is dominated by the interfacial thermal conductance between particles when the interfacial thermal conductance constant, GIC, is greater than 20 MW/m2K, but that for lower GIC values, thermal conduction through the air around the nanoparticles can also play a role in the overall heat transfer within the nanoparticle system. The coupled model is used to simulate heat transfer in a copper nanoparticle packing used in a typical microscale selective laser sintering (μ-SLS) process with an experimentally measured particle size distribution and layer thickness. The simulations predict that the nanoparticles will reach a temperature of 730 ± 3 K for a laser irradiation of 2.6 kW/cm2 and 1304 ± 23 K for a laser irradiation of 6 kW/cm2. These results are in good agreement with the experimentally observed laser-induced sintering and melting thresholds for copper nanoparticle packing on glass substrates.
publisherThe American Society of Mechanical Engineers (ASME)
titleThermal Transport in Nanoparticle Packings Under Laser Irradiation
typeJournal Paper
journal volume142
journal issue3
journal titleJournal of Heat Transfer
identifier doi10.1115/1.4045731
page32501
treeJournal of Heat Transfer:;2020:;volume( 142 ):;issue: 003
contenttypeFulltext


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