Effect of mechanical activation on physical properties of relaxor ferroelectric Pb2ScNbO6 ceramics
Elza UbushaevaMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaEkaterina LikhushinaMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaК. Г. АбдулвахидовMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaM. A. VitchenkoMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaBashir AbdulvakhidovMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaВ. Б. ШироковMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaN. V. LyanguzovMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaYu. I. YuzyukMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaЕ. М. КайдашевMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, RussiaI. V. MardasovaMoscow Aviation Institute (State University of Aerospace Technology), Moscow, 125080, Russia
2011en
ABI
Аннотация
Relaxor ferroelectric lead scandium niobate Pb2ScNbO6 (PSN) ceramics was obtained by solidstate synthesis and a modified ceramic technology, whereby the sintering stage was preceded by room-temperature compression and shear straining of the synthesized PSN powder in Bridgman anvils. It is established that this mechanical activation leads to the development of dynamic recrystallization processes in PSN grains, which significantly influence the physical properties of the final ferroelectric ceramic material.
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