Influence of Silicon on the Properties of Aluminum Alloy Powders of the Silumin Type and the Mechanical Properties of Products Made from These Powders by Selective Laser Melting

Influence of Silicon on the Properties of Aluminum Alloy Powders of the Silumin Type and the Mechanical Properties of Products Made from These Powders by Selective Laser Melting

Technologies for the 3D printing of metallic powders are being increasingly extensively used around the world as alternatives to casting and machining to manufacture components of complex shapes and prototypes. Silicon-alloyed aluminum alloys are the most widely used materials in the selective laser...

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Bibliographic Details
Published in:Theoretical foundations of chemical engineering Vol. 54; no. 5; pp. 1031 - 1039
Main Authors: Ryabov, D. K., Kozlov, D. A., Petrov, A. K., Garshev, A. V., Evdokimov, P. V., Filippov, Ya. Yu, Orlov, N. K., Putlyaev, V. I., Chetvertukhin, A. V., Krokhin, A. Yu, Khromov, A. P., Korolev, V. A., Mikhailov, I. Yu
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-09-2020
Subjects:
Chemistry
Chemistry and Materials Science
Industrial Chemistry/Chemical Engineering
Technology of Inorganic Substances and Materials
microstructure
aluminum alloy
AK7ch alloy
selective laser melting
additive manufacturing technologies
AK9ch alloy
mechanical properties
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Summary:Technologies for the 3D printing of metallic powders are being increasingly extensively used around the world as alternatives to casting and machining to manufacture components of complex shapes and prototypes. Silicon-alloyed aluminum alloys are the most widely used materials in the selective laser melting technologies, which is caused by the price of these alloys and their high manufacturability for the layer-by-layer fused deposition, owing to their low susceptibility to hot cracking under thermal and shrinkage stresses. High rates of cooling the melt facilitate the formation in the material of ultradispersed silicon-containing phases, which results in increased strength. In the article, exemplified by two cast alloys (AK7ch and AK9ch), the speeds of the process of building up the products by the selective laser melting technology have been determined at a laser-beam power of 300 and 325 W and an energy density within the range 89–32 J/mm 3 . It is shown that, for the AK9ch alloy, lower porosity values are achieved within the investigated energy density range when compared with the AK7ch alloy and better mechanical properties of the alloy with a higher silicon content are achieved within the range of lower laser-beam energy densities than for the alloy with a lower silicon content. The mechanical properties of the materials produced under the optimal selective laser melting conditions comply with the most stringent requirements for the mechanical characteristics of the castings of the AK7ch alloy upon heat treatment.
ISSN:0040-5795
1608-3431
DOI:10.1134/S004057952005019X