ON THE PROBLEM OF INCREASING THE RELIABILITY OF NANOMATERIAL DIAGNOSTIC DEVICES IN HYBRID TECHNOLOGIES

Abstract

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Background. The term "optical coherence tomography" appeared many decades ago in works devoted to expanding the capabilities of low-coherence reflectometry for imaging the internal structure of turbid media. This term, despite not exactly matching the accepted concept of tomography (layer-by-layer image restoration by solving an inverse mathematical problem), is now recognized throughout the world. The purpose of the study is to analyze methods for diagnosing nanomaterials in hybrid technologies for forming parts in the transport engineering system (gas turbine motor-car trains made from new materials). Materials and methods. Analysis of diagnostic methods has shown that some of the known methods are unsuitable, others require adaptation to nanomaterials, and a significant part can only be determined using new methods. Results and conclusions. The work shows that the use of laser, ultrasonic, fiber-optic diagnostic systems for nanomaterials and alloys in hybrid technologies for forming parts in a high-speed rolling stock system will reduce investment and operating costs of high-speed railways, increase reliability while maintaining power and dynamic characteristics trains compared to substations with diesel power plants and electric trains.

Keywords

• high-speed transport
• diagnostics
• control
• sensors
• technologies
• composites
• alloys
• nanomaterials