Using 3D Printing to Strengthen Jet Engines
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Using 3D Printing to Strengthen Jet Engines

May 11, 2023

Skolkovo Institute of Science and Technology, Moscow, Russia

Skoltech engineers have used a 3D printer to fabricate — and investigate the mechanical characteristics of — samples of bronze-steel alloys previously unknown to materials science. Blending the distinct properties of bronze and steel, the novel alloys could be used to manufacture combustion chambers for aircraft and rocket engines. These would benefit from both steel's ability to withstand extreme temperatures and bronze's capacity to conduct heat away from the chamber.

"3D printing is promising for manufacturing composite parts, endowed with the properties of the two distinct materials that make up the composite," said Associate Professor Igor Shishkovsky, Skoltech Materials. "Consider, for example, that steel is resistant to the high temperatures created by fuel combustion in an operating engine. This is great, but compared with bronze, steel is a modest thermal conductor, so the engine coolant cannot siphon heat away from it as effectively to prevent overheating and damage. Well, with 3D printing, you can actually get the best of both worlds by manufacturing a combustion chamber that seamlessly goes from being bronze on the inside for better temperature management to being steel on the outside for holding the structure together."

The team reported the first synthesis of a bronze-steel alloy using a 3D-printing technique called direct laser deposition, which melts and fuses powdered ingredients via laser beam at every successive point in the metal part as it's being created.

The Skoltech team, in fact, combined bronze and steel in two different ways — obtaining both quasi-homogeneous alloys and sandwich structures. In the former, the two materials are about evenly intermixed throughout the sample, while the latter consist of a series of alternating 0.25-mm-thick layers of bronze and steel. The researchers used one type of steel but varied its content in the alloy from 25 percent to 50 percent and experimented with three different common varieties of bronze.

The results confirmed that the two materials fused well, without defects forming, and investigated the bronze-steel alloy's structural and mechanical properties. To do so, the team grew vertical bars from the bottom up and examined their shape, chemical composition, and microstructure.

"When something goes wrong, the sample's shape might get visibly distorted or it might fracture into layers during 3D printing. This usually means that either the materials used are not suitable or the conditions haven't been set right," Shishkovsky said.

Finding no problems thus far, the researchers proceeded to cut out tiny pieces from different parts of the samples and investigated their internal structure with optical and scanning electron microscopy. The main mechanical characteristics were then obtained in a wide range of mechanical tests of sandwich composites continued up to their destruction.

"Now that we have confirmed that steel and bronze can be combined in an alloy and are compatible with 3D printing via direct laser deposition, and we know the mechanical characteristics of the new material, we can explore its possible applications," said the study's first author Konstantin Makarenko, student, Skoltech Materials. "Looking forward, I would like to manufacture and test a steel-bronze combustion chamber at Skoltech, but beyond that, other items are possible and other metal combinations could be used.

"The next step would be to create turbine blades made of a strengthened superalloy with cooling channels made of bronze. It's all about combining the benefits of two distinct materials in one seamless product without any welding or other junctures."

For more information, contact Skoltech Communications at This email address is being protected from spambots. You need JavaScript enabled to view it.; +7 495-280-1481.

This article first appeared in the June, 2023 issue of Tech Briefs Magazine.

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