Investigation of the fabrication process of metal 3D printed powder by molten alloy dispersion method using centrifugation and high-pressure gas
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https://doi.org/10.54939/1859-1043.j.mst.98.2024.101-108Keywords:
3D printing; Metal powder; AlSi10Mg; Atomiser.Abstract
Atomization using centrifugation and high-pressure gas is considered to be a relatively new method of producing metal 3D printing powders. The metal powder made by this method is expected to obtain an adequate small-scaled size with the limitation of satellites stuck to the surface due to the reduction of the gas flow in the dispersion chamber. This work conducted experimental studies with aluminum alloy graded AlSi10Mg. The manufactured metal powder was tested for corresponding technical properties of metal 3D printing powder, such as chemical composition, particle size distribution, morphological structure, etc. The investigation results have determined the influence of geometrical and technological parameters of the atomization process, including liquid metal flow, liquid metal overheating, and some structural parameters of equipment on the quantity and quality of the product.
References
[1]. S.A. Oglezneva, A.A. Smetkin, V.I. Mitin, K.V. Kalinin. “Influence of melt atomization parameters on technological characteristics of 12Kh18N10T grade powder”. Mechanical engineering, materials science. V.19b No. 4, pp. 122-138, (2017). DOI: 10.155-93/2224-9877/2017.4.09.
[2]. Sentyurina Zh. A., “Obtaining spherical powders from alloys based on nickel aluminide NiAl for additive technologies”, Thesis for the degree of candidate of technical sciences. (2016).
[3]. C. Czisch, H. Lohner, U. Fritsching, K. Bauckhage, A. Edlinger, in: K. Bauckhage, U. Fritsching, J. Ziesenis, A. Uhlenwinkel, A. Leatham (Eds.), Proc. Spray Deposition and Melt Atomization Conference SDMA, Bremen, Univ. Bremen, (2003).
[4]. Udo Fritsching, Volker Uhlenwinke. “Hybrid Gas Atomization for Powder Production. Powder Metallurgy”, (2012). DOI:10.5772/35807.
[5]. Nechiporenko, O.S. “Atomized metal powders”/ O.S. Nechiporenko, Yu.I. Naida, A.B. Medvedovsky. - Kyiv: Nauk. Dumka,240 p, (1980).
[6]. Bin Liu, Bao-Qiang Li, Zhonghua Li, “Selective laser remelting of an additive layer manufacturing process on AlSi10Mg”, (2018). DOI: 10.1016/j.rinp.2018.12.018;
[7]. Christopher M. Laursen, Stephanie A. DeJong, Andrea N. Exil, “Relationship between ductility and the porosity of additively manufactured AlSi10Mg”, Materials Science and Engineering A, (2020). DOI: 10.1016/j.msea.2020.139922
[8]. Nizhenko V.I., Floka L.I. “Surface tension of liquid metals and alloys (one- and two-component systems): Handbook”. M.: Metallurgy. 208s, 91981).
[9]. Van Phuc, D., Van Quang, V., Thang, V.T. (2023). “Research and Fabrication of Metal Powder Dispersing Equipment for 3D Printing Technology”. Proceedings of the 3rd Annual International Conference on Material, Machines and Methods for Sustainable Development. Lecture Notes in Mechanical Engineering. Springer, Cham, (2022). https://doi.org/10.1007/978-3-031-31824-5_5
[10]. Установка центробежно-газового распыления металлического расплава// Патент РФ № 158556. (2015). Агеев С. В., Гиршов В. Л.[и др.].
[11]. Установка для распыления жидких металлов// Патент РФ № 133445 U1. (2013). Сафонов Е. В., Бромер К. А.[и др.].