On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing

On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing

Additive manufacturing is growing rapidly as a manufacturing method. Additive manufacturing is a rapid solidification process and may, as such, generate new microstructures with an improvement of mechanical properties compared to conventional manufacturing. The repeatability and deeper understanding...

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Main Authors: Anders E.W. Jarfors, Taishi Matsushita, Dimitrios Siafakas, Roland Stolt
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:Materials & Design
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127521001611
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spelling doaj-3b8648b86ded4186823f2a4815f620872021-05-18T04:09:57ZengElsevierMaterials & Design0264-12752021-06-01204109608On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processingAnders E.W. Jarfors0Taishi Matsushita1Dimitrios Siafakas2Roland Stolt3Jönköping University, School of Engineering, Department of Materials and Manufacturing, Box 1026, 55111 Jönköping, Sweden; Corresponding author.Jönköping University, School of Engineering, Department of Materials and Manufacturing, Box 1026, 55111 Jönköping, SwedenJönköping University, School of Engineering, Department of Materials and Manufacturing, Box 1026, 55111 Jönköping, SwedenJönköping University, School of Engineering, Department of Product Development, Box 1026, 55111 Jönköping, SwedenAdditive manufacturing is growing rapidly as a manufacturing method. Additive manufacturing is a rapid solidification process and may, as such, generate new microstructures with an improvement of mechanical properties compared to conventional manufacturing. The repeatability and deeper understanding of properties repeatability for both mechanical and thermophysical properties are not well-established. In the current study, a complete analysis of the nature of the anisotropy is experimentally analysed to provide input for better understanding of the printing process and the resulting properties as reliability and predictability are important factors to build trust in a new manufacturing process.http://www.sciencedirect.com/science/article/pii/S0264127521001611
collection DOAJ
language English
format Article
sources DOAJ
author Anders E.W. Jarfors
Taishi Matsushita
Dimitrios Siafakas
Roland Stolt
spellingShingle Anders E.W. Jarfors
Taishi Matsushita
Dimitrios Siafakas
Roland Stolt
On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
Materials & Design
author_facet Anders E.W. Jarfors
Taishi Matsushita
Dimitrios Siafakas
Roland Stolt
author_sort Anders E.W. Jarfors
title On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
title_short On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
title_full On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
title_fullStr On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
title_full_unstemmed On the nature of the anisotropy of Maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
title_sort on the nature of the anisotropy of maraging steel (1.2709) in additive manufacturing through powder bed laser-based fusion processing
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2021-06-01
description Additive manufacturing is growing rapidly as a manufacturing method. Additive manufacturing is a rapid solidification process and may, as such, generate new microstructures with an improvement of mechanical properties compared to conventional manufacturing. The repeatability and deeper understanding of properties repeatability for both mechanical and thermophysical properties are not well-established. In the current study, a complete analysis of the nature of the anisotropy is experimentally analysed to provide input for better understanding of the printing process and the resulting properties as reliability and predictability are important factors to build trust in a new manufacturing process.
url http://www.sciencedirect.com/science/article/pii/S0264127521001611
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AT dimitriossiafakas onthenatureoftheanisotropyofmaragingsteel12709inadditivemanufacturingthroughpowderbedlaserbasedfusionprocessing
AT rolandstolt onthenatureoftheanisotropyofmaragingsteel12709inadditivemanufacturingthroughpowderbedlaserbasedfusionprocessing
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