Variations of interfacial thermal conductance at melting and crystallization of an indium micro-particle in contact with a solid

A. Minakov; J. Morikawa; M. Ryu; E. Zhuravlev; C. Schick

Materials & Design (Mar 2021)

Variations of interfacial thermal conductance at melting and crystallization of an indium micro-particle in contact with a solid

A. Minakov,
J. Morikawa,
M. Ryu,
E. Zhuravlev,
C. Schick

Affiliations

A. Minakov: Prokhorov General Physics Institute of the Russian Academy of Sciences, Vavilov Str. 38, 119991 Moscow, Russia
J. Morikawa: Tokyo Institute of Technology, School of Materials and Chemical Technology, Tokyo 152-8552, Japan
M. Ryu: Tokyo Institute of Technology, School of Materials and Chemical Technology, Tokyo 152-8552, Japan
E. Zhuravlev: University of Rostock, Institute of Physics and Competence Centre CALOR, Albert-Einstein-Str. 23-24, 18051 Rostock, Germany
C. Schick: University of Rostock, Institute of Physics and Competence Centre CALOR, Albert-Einstein-Str. 23-24, 18051 Rostock, Germany; Tokyo Tech World Research Hub Initiative (WRHI), School of Materials and Chemical Technology, Tokyo Institute of Technology, Japan; Kazan Federal University, Kremlyovskaya Str. 18, Kazan 420008, Russian Federation; Corresponding author at: University of Rostock, Institute of Physics and Competence Centre CALOR, Albert-Einstein-Str. 23-24, 18051 Rostock, Germany.

Journal volume & issue: Vol. 201
p. 109475

Abstract

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The heat transfer between a micrometer-sized particle, as used in laser-assisted additive manufacturing, and a substrate strongly depends on the variations in interfacial thermal conductance (ITC), among other thermophysical parameters of the sample and substrate. Variations of ITC were measured on a millisecond time scale during fast melting and crystallization of an indium micro-sized sample with a mass of about 1 ng. Fast scanning nanocalorimetry was simultaneously applied with high-speed infrared thermography. The ITC between the sample and the sensor membrane was obtained. Therefore, the evolution of the temperature difference at the sample/membrane interface during fast melting and crystallization of the micro-sized indium droplet was measured. An unusual effect of gradual variation of ITC in the melting experiment was found. The method can be applied for ITC measurements during fast processes with 0.26 ms resolution. The quantification of ITC allows, for example, the optimization of melting during additive manufacturing.

Published in Materials & Design

ISSN: 0264-1275 (Print); 1873-4197 (Online)
Publisher: Elsevier
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.journals.elsevier.com/materials-and-design

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