The Influence of Solar Sintering on Copper Heat Exchanger Parts with Controlled 3D-Printed Morphology

Mihai Alin Pop; Cătălin Croitoru; Tibor Bedo; Virgil Geamăn; Irinel Radomir; Aurel Crișan; Emmanuel Guillot; Ioan Miloșan; Sebastian Marian Zaharia; Lucia Antoaneta Chicoș

doi:10.3390/ma15093324

Materials (May 2022)

The Influence of Solar Sintering on Copper Heat Exchanger Parts with Controlled 3D-Printed Morphology

Mihai Alin Pop,
Cătălin Croitoru,
Tibor Bedo,
Virgil Geamăn,
Irinel Radomir,
Aurel Crișan,
Emmanuel Guillot,
Ioan Miloșan,
Sebastian Marian Zaharia,
Lucia Antoaneta Chicoș

Affiliations

Mihai Alin Pop: Materials Science Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Cătălin Croitoru: Materials Engineering and Welding Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Tibor Bedo: Materials Science Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Virgil Geamăn: Materials Science Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Irinel Radomir: Mathematics and Informatics Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Aurel Crișan: Materials Science Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Emmanuel Guillot: PROMES-CNRS Laboratory, Processes, Materials and Solar Energy, 7 Rue du Four Solaire, F-66120 Font Romeu Odeillo, France
Ioan Miloșan: Materials Science Department, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Sebastian Marian Zaharia: Manufacturing Engineering Department, Faculty of Technological Engineering and Industrial Management, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania
Lucia Antoaneta Chicoș: Manufacturing Engineering Department, Faculty of Technological Engineering and Industrial Management, Transilvania University of Brasov, 29 Eroilor Ave., 500484 Brasov, Romania

DOI: https://doi.org/10.3390/ma15093324
Journal volume & issue: Vol. 15, no. 9
p. 3324

Abstract

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From a scientific point of view, heat transfer is different in solar furnaces compared with classical ones and the influence of direct concentrated solar radiation on sintered parts needs to be studied in detail to determine the feasibility of solar furnaces in manufacturing small workpieces. This study was performed on cylindrical samples with controlled morphology obtained by a powder metallurgy 3D printing technique. All samples were heated with a heating rate of 120 ± 10 °C/minute, with 0, 1, 2, 3, 4 and 5 min holding times at 900 °C and 930 °C. The morphology of the samples was analyzed microscopically, the microhardness was determined before and after sintering, and the results were correlated with the sintering parameters (temperature, heating rate and holding time). The best results were obtained at 930 °C with 5 min holding time from the microhardness value and microstructure point of view.

Published in Materials

ISSN: 1996-1944 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering; Technology: Engineering (General). Civil engineering (General); Science: Natural history (General): Microscopy; Science: Physics: Descriptive and experimental mechanics
Website: http://www.mdpi.com/journal/materials/

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