Nonuniformity of the Crystallographic Texture and the Mechanical Properties of the Austenitic Steel 316L Plates Formed by Selective Laser Melting of a Powder

The steel 316L plates formed by selective laser melting of a powder are found to have a sharp texture, which is close to the {001} cube texture, and the texture intensity and the deflection of texture from external plate directions change across the plate width differently in plates of different thi...

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Published in:Russian metallurgy Metally 2019, Vol.2019 (1), p.42-47
Main Authors: Perlovich, Yu. A., Isaenkova, M. G., Dobrokhotov, P. L., Rubanov, A. E., Yudin, A. V., Tret’yakov, E. V.
Format: Article
Language:English
Subjects:
Austenitic stainless steels
Chemistry and Materials Science
Cooling rate
Crystallography
Cube texture
Laser beam heating
Laser beam melting
Laser cooling
Lasers
Materials Science
Mechanical properties
Metallic Materials
Microhardness
Nanoindentation
Nonuniformity
Plates
Rapid prototyping
Thickness
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container_title Russian metallurgy Metally
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creator Perlovich, Yu. A.
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description The steel 316L plates formed by selective laser melting of a powder are found to have a sharp texture, which is close to the {001} cube texture, and the texture intensity and the deflection of texture from external plate directions change across the plate width differently in plates of different thicknesses. The mechanical properties determined by nanoindentation are also nonuniform over the plate width. The nonuniformity of texture and microhardness is assumed to be related to the changes in the plate growth conditions in printing, such as the heating and cooling rates, the direction of laser beam action, the heat removal direction in plates of different thicknesses, and the shape of the molten pool. The crystallographic texture is shown to be a sensitive indicator of all plate growth processes; therefore, it can be used to optimize the parameters that determine the properties of the plates.
doi_str_mv 10.1134/S0036029519010099
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subjects Austenitic stainless steels
Chemistry and Materials Science
Cooling rate
Crystallography
Cube texture
Laser beam heating
Laser beam melting
Laser cooling
Lasers
Materials Science
Mechanical properties
Metallic Materials
Microhardness
Nanoindentation
Nonuniformity
Plates
Rapid prototyping
Thickness
title Nonuniformity of the Crystallographic Texture and the Mechanical Properties of the Austenitic Steel 316L Plates Formed by Selective Laser Melting of a Powder
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