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Russian scientists figured out how to make metal glasses for gadgets
23.10.2021 [14:18],
Gennady Detinich

Recently, a group of scientists from NUST MISIS published an article in the Journal of Alloys and Compounds, in which they talked about the unique method of processing metal glass. Researchers proposed a technique that was considered unacceptable in scientific circles for processing such materials, but the result exceeded expectations – coatings for smartphones and implants with the highest strength properties may appear.

Image source: NUST MISIS

Metallic glasses or amorphous metals are materials that do not have a pattern in the arrangement of atoms far apart from each other. Therefore, they are distinguished by high strength, elasticity, corrosion resistance and other properties that are in great demand in instrument making, mechanical engineering, medicine and magnetic electrical engineering. The technology of processing metal glasses proposed by Russian scientists promises to reduce the cost of their production and push them into the consumer segment, increasing the quality of products.

Apart from the high cost, another obstacle to the use of metal glasses as protective coatings is their high fragility. Scientists have found how to overcome this barrier, but so far the technique has been tested on a rather expensive amorphous alloy of the zirconium-copper-iron-aluminum system (Zr-Cu-Fe-Al). The path to gadgets and the widespread use of new coatings will be open if the technique can be applied to the processing of metal glasses from cheaper materials, for example, titanium alloys. This is what will be the subject of continued research.

As for the proposed method of processing amorphous metals, it includes the stage of annealing before and after rolling, which was “prohibited” by the canons of science about this class of metals. In most experiments with annealing, the material became extremely brittle, which is unacceptable.

“The choice of the alloy composition and alloying system helped us to get around this problem: annealing about 100 degrees below the glass transition temperature made it possible, instead of embrittlement, to achieve plasticization of bulk samples and hardening of tape samples,” explained the research supervisor, Dr.t.n., NUST MISIS professor, Dmitry Luzgin.

Image source: NUST MISIS

In the course of the experiments, scientists obtained volumetric samples of metal glasses that allowed stretching up to 1.5% at room temperature (increased plasticity), and tape samples turned out to be 25% harder. At the same time, plasticity in bending and compression was retained. The transfer of these processing technologies to widely available materials promises a lot of interesting things, but when this will happen, today no one can say.

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