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For the last fifty years there has been interest in studing thermoelectrical materials.
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Development of Magnetic Fabric Based on Magnetic Fiber Nano Materials, Resistant to External Heat, Electromagnetic Radiation and High-Toxic Substances.
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The development of new catalysts for the oxidation of carbon monoxide at room temperature for cleaning the air in residential and industrial buildings and for special facilities.
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Possibility to obtain different metals oxides, metals and their compositions by spray pyrolysis method. Method allows to control structure characteristics of material. It doesn’t need expensive and cumbersome equipment.
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Preparation of new nanostructured materials for high-performance, ecologically safe thermoelectric equipment and systems.
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Two types of bulk structural materials dispersionstrengthened with nanoparticles, which exhibit the effect of simultaneous nanoparticle strengthening of carbide grains and the metal matrix, have been designed
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The conception of this direction consists in doping the metal binder with strengthening nanoparticles
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The improvement of structure and properties of fuel pellets for fuel elements by integrating the nanodispersed alloying composite to the uranium dioxide matrix in order to enhance the performance parameters of power reactors.
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The large throughput fabrication of BN nanotubes and nanosheets and their smart utilization for reinforcement of diverse metallic and ceramic composite materials and coatings for structural and medical applications is our ultimate goal.
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Designed for complex-shaped castings obtained by different casting methods (including the use of rapid prototyping technology). Alloy replaces the existing foundry alloys, to replace heat-resistant alloys such as AA224 and Ni-Resist.
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The methods of severe plastic deformation (equal channel angular pressing, pressure torsion, etc.) for the production of bulk non-porous submicrocrystalline and nano-materials.
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Theory and technology of the thermomechanical treatment of metallic materials, Control of structure and formation of special properties of metallic materials. Development of new steels and alloys with special properties.
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The large throughput fabrication of BN nanotubes and nanosheets and their smart utilization for reinforcement of diverse metallic and ceramic composite materials and coatings for structural and medical applications is our ultimate goal.
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Reactionary Foils for Connecting Heterogeneous and Refractory Materials
Multy layer systems consisting of alternating metallic layers, when their thickness is decreased to nanometers, obtain high reactionary properties.
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Nanostructured Ceramic Materials. SiC based materials have unique properties such as low volume weight, high strength and hardness, heat- and oxidation resistance, low coefficient of thermal expansion, special dielectric properties.
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Low-doped high-strength silumin Al9Si-Q without beryllium has the tensile strength for metal mold castings above 310 MPa, for temporary mold castings - above 280 MPa.
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The development of the theory of the formation of point defects in the light-emitting diodes based on heterostructures with quantum holes GaAlN / GaN / GaInN by passing a direct current through them
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Scientific field is devoted to a wide range of biocompatible polymer composites for the structural replacement of cartilage and bone, and implants used in hip and knee joints
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The main goal of our scientific research is to development a multicomponent composites based on polypyromelliteimide for application in extreme conditions of dry friction at elevated temperatures (up to 300 °C).
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Quasicrystalline Materials
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