Zaitseva, Liliia V.Vodoriz, Olga S.Zaitsev, Roman V.2023-09-152023-09-152020Zaitseva L. ITO/polyimide/Al2O3 thin films structure for capacitive transducers / Liliia Zaitseva, Olga Vodoriz, Roman Zaitsev // Modern problem of power engineering and ways of solving them : proc. 2d International Scientific and Technological Conference, Tbilisi, Georgia, December 7-10, 2020. – Tbilisi, Georgia, 2020. – Р. 124-127.https://repository.kpi.kharkov.ua/handle/KhPI-Press/68965It has been developed and approbated prototypes of thin-film capacitor transducers based on Al/ITO/polyimide/Al2O3 heterosystem for capacitive acoustic control in metal objects in the modes of simultaneous acoustic signal reception and generation by capacitive transducers and in certain modes of acoustic signal generating or receiving that can realize objects monitoring with sensitivity at the level of piezoelectric transducers. The developed prototype of thin film capacitive transducer for monitoring pipelines by longwave capacitive method allows increasing the maximum distance between the capacitive transducers up to 10 m. It has been engineered the thin film capacitive transducers which by using the polyamide film with 15 microns thickness of and alumina film with 1 micron thickness allow to increase the sensitivity of such method in 7-8 times. It is shown that using the magnetron sputtering technology, which provides high adhesion to polyimide substrate layers, made possible produce the capacitive transducers for objects with various shape. Proposed and patented: capacitor method for receiving acoustic signals in non-destructive control and transducer of ultrasonic acoustic wave’s excitation and receiving.enthin-film transducercapacitive methodmetal defectoscopypolyimideITO/polyimide/Al2O3 thin films structure for capacitive transducersArticle