Solid and micro-solid hyroscopes are the shells of different materials, in which constrained oscillations of rather high frequencies up to 80 Hz are generated, the shell deformation results in deformation and strains in it, which can lead to the structure destruction after the long operation. The provision of the hyroscope required parameters is reached when developing the structure and mathematical models based on the equations of mathematical physics. Based on the parameter analysis obtained with the help of mathematical models and numerical modeling the structure is optimized for the required tactic and technical characteristics of solid wave hyroscopes (SWH) and the technology of manufacturing products depending on the selected materials, requirements to the surfaces obtained, product durability and its dimensions is developed.
The developed structures of SWH sensitive elements based on new progressive materials and their manufacturing technologies allow significantly decreasing SWH sizes and weight. The device precision increase is provided by the operation algorithms of the device computational component, as well by its measuring component. The durability and reliability of new sensitive elements operating on the large resonance frequency are provided by the mathematical modeling of the device elements’ operation, solution of the problems of deformable body mechanics, problems of shells’ oscillations and stability, obtaining of main dependencies and conducting experiments.