Vol.4, No 16, 2004 pp. 115-120
UDC 537.226.86:53.082.73:62-521
MODELLING OF LAMINATE COMPOSITES
WITH EMBEDDED PIEZOELECTRIC ACTUATORS AND SENSORS
Dragan Marinković1,2, Ulrich Gabbert1
1Otto-von-Guericke-Universität Magdeburg,
Fakultät für Maschinenbau,
Institut für Mechanik, Universitätsplatz 2, D-39106 Magdeburg, Germany
2Faculty of Mechanical Engineering,
University of Niš
Aleksandra Medvedeva 14, 18000 Niš, Serbia and Montenegro
Abstract. The increasing need for lightweight structures requires
the development of new kinds of materials. The general requirement of those
materials is high specific mechanical properties, i.e. the ratio between
mechanical properties and mass density. Laminate fiber reinforced materials,
which have a very high strength and stiffness in desired directions and
lower characteristics in other directions represent a very good choice,
and they are already used in various applications like space structures,
transportation applications etc. Further behavior improvement of structures
made of laminate composites can be achieved by embedding components made
of smart material between layers, like piezoelectric patches. In the paper
the governing equations of an active layered plate are described based
on the Mindlin-Reissner assumption. For a piezoelectric layer the electromechanical-coupled
constitutive equations are introduced and the governing equations of piezoelectric
actuating loads and sensor output are developed. Then the paper addresses
the problem of the finite element formulation of a laminated piezoelectric
plate type element.
MODELIRANJE LAMINARIH KOMPOZITNIH
MATERIJALA
SA INTEGRISANIM PIEZOELEKTRIČNIM AKTUATORIMA
I SENZORIMA
Sve veća potreba za lakim konstrukcijama zahteva razvoj novih vrsta materijala.
Od tih materijala se zahtevaju visoka specifična svojstva, tj.visok odnos
mehaničkih karakteristika i specifične gustine. Laminarni vlaknasti kompozitni
materijali, koji raspolažu visokom čvrstoćom i krutošću u zeljenim pravcima
i nižim karakteristikama u drugim pravcima predstavljaju dobar izbor i
već se uveliko koriste u različite svrhe, npr. u konstrukcijama za svemirska
istraživanja, transportu itd. Viši kvalitet u ponašanju konstrukcija od
ovih materijala može se postići integrisanjem aktivnih komponenti, npr.
piezo-pločica, izmedju slojeva materijala. U radu su date osnovne jednačine
aktivne kompozitne ploče prema predpostavkama Mindlin-Reissner. Za piezoelektrični
sloj su date osnovne jednačine spregnutog mehaničkog i električnog polja,
kao i jednačine koje definišu pobudu piezoelektričnog aktuatora, odnosno
izlaz senzora. Na kraju rada se razmatra formulacija problema primenom
metode konačnih elemenata.
