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発行日時
2018/10/11 10:30
見出し
Russian researchers double strength of 3D-printed Al composites
リンクURL
http://www.greencarcongress.com/2018/10/20181011-misis.html Russian researchers double strength of 3D-printed Al compositesへの外部リンク
記事詳細
Researchers at the National University Of Science And Technology MISIS (NUST MISIS) in Russia have proposed a technology that can double the strength of composites obtained by 3D printing from aluminum powder, and advance the characteristics of these products to the quality of titanium alloys: titanium’s strength is about six times higher than that of aluminum, but the density of titanium is 1.7 times higher.

3D-printed detail prototype. Credit Sergey Gnuskov/NUST MISIS.
The team developed strengthening modifying-precursors, based on nitrides and aluminum oxides and obtained through combustion, as the basis of the new composite. The research results have been published in the journal Sustainable Materials and Technologies.
Two decades ago, molding was considered the only cost-effective way to manufacture bulk products. Today, 3D printers for metal are a worthy competitor to metallurgical methods. 3D printers have a chance to replace traditional methods of metallurgical production in the future. Using additive technologies with 3D printing creates a whole array of advantages, from creating more difficult forms and designs to the technology's cheaper cost and theoretical edge.
Currently, there are several technologies that are used for printing metal, the main ones being Selective Laser Melting (SLM) and Selective Laser Sintering (SLS). Both of them involve the gradual layering of metal powder, layer by layer, to build a given volume figure. SLS or SLM are additive manufacturing technologies based on layer-by-layer sintering of powder materials using a powerful (up to 500 Watt) laser beam.
Titanium is the optimal metal for manufacturing products for the aerospace industry, however it cannot be used in 3D printing because of the fire and explosion hazards of powders. Aluminum is an alternative, as it is lightweight (density 2700 kg/m3) and moldable, having an elasticity modulus of ~70 MPa. This is one of the main requirements of the industry for a metal to be suitable for 3D printing. However, aluminum alone is not strong or solid enough: the tensile strength even for the alloy Duralumin is 500 MPa, and its Brinell hardness HB sits at 20 kgf/mm2.
The solution on how to strengthen aluminum 3D printing was proposed by the research team led by Professor Alexander Gromov from the NUST MISIS Department for Non-Ferrous Metals and Gold.

We have developed a technology to strengthen the aluminum-matrix composites obtained by 3D printing, and we have obtained innovative precursor-modifiers by burning aluminum powders. Combustion products - nitrides and aluminum oxides - are specifically prepared for sintering branched surfaces with transition nanolayers formed between the particles. It is the special properties and structure of the surface that allows the particles to be firmly attached to the aluminum matrix and, as a result, [doubles] the strength of the obtained composites.
—Alexander Gromov, head of the research group

Currently, the team of developers is testing the prototypes with the help of new technology.
Resources

G.N. Ambaryan, M.S. Vlaskin, O.A. Buryakovskaya, S.A. Kislenko, A.Z. Zhuk, E.I. Shkolnikov, A.N. Arnautov, S.V. Zmanovsky, A.A. Osipenkova, V.P. Tarasov, A.A. Gromov (2018) “Advanced manufacturing process of ultrahigh-purity α-Al2O3,” Sustainable Materials and Technologies, Volume 17, e00065 doi: 10.1016/j.susmat.2018.e00065