Abstract and keywords
Abstract (English):
The paper reports the substantiation of the stabilization technology for geometrical parameters of elastic plates in pressure sensors carried out by means of residual stresses affected by ultrasonic oscillations. For the confirmation of the efficiency of the developed ultrasonic stabilization technology in accordance with the procedure described the experimental investigations are carried out. The results of the experimental study are presented by the equation of regression and diagrams of residual stresses dependences upon technological factors. Amplitudes of ultrasonic oscillations, a static force of tool pressure and machining duration were assumed as variable technological factors. High productivity and efficiency of the ultrasonic technology for elastic plate stabilization are proved experimentally. As a result of the experiment there are defined rational values of ultrasonic processing modes for specific geometrical and physical-mechanical parameters of a plate.

ultrasonic oscillations, technology, residual deformation, stabilization.
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1. Biront, V.S., Sushchikh, V.А. Yuzhakova, Е.V., Fofa-nova, А.S., Baidina, Т.V. Relaxation of residual stresses at ultrasonic processing // Material Science and Thermal Metal Treatment. ‒ 1984. ‒ №6. ‒ pp. 57‒ 60.

2. Korolyov, А.V., Bolkunov, V.V., Slesarev, S.V., Koro-lyov, А.А. Ultrasonic Stabilization of Dimensions of Racers with Plastic Bearing Flanges // STIN. ‒ 2006. ‒ № 9. ‒ pp. 38‒ 40.

3. Korolyov, А.V., Balaev, А.F., Savran, S.А., Baltaev, Т.А., Yakovishin, А.S. Comparative analysis of ultrasonic and thermal methods of residual stresses relaxation // Science, Technologies and Innovations in Modern World. ‒ 2015. ‒ № 1 (2). ‒ pp. 47‒ 50.

4. Baltaev, Т.А., Korolyov, А.V., Korolyov, А.А., Balaev, А.F., Savran, S.А. Technology for residual stresses stabilization in elastic sensitive elements of pressure devices based on ultrasonic energy use // Assembly in Mechanical Engineering, Instrument Engineering. ‒ 2015. ‒ № 12. ‒ pp. 39‒ 41.

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