A technique for preparing model Functionally Gradient Materials (FGM) using
polyester resin and cenospheres is developed. The cenosphere volume fracti
on in the polyester matrix is continuously varied through a buoyancy assist
ed casting process. FGMs having cenosphere volume fraction varying from 0 t
o 0.45 over a length of 250 mm are prepared. The overall properties of the
FGM are varied by adding plasticizer to the polyester matrix. The physical,
elastic and fracture properties of the prepared FGMs are evaluated as a fu
nction of location to generate the property profiles. The results of the ma
terial characterization indicate that, the quasi-static and dynamic modulus
of the material increases and the material density decreases in the direct
ion of increasing cenosphere volume fraction. The quasi-static fracture tou
ghness increases up to a certain volume fraction of cenospheres and then de
creases. Fractographic analyses of the fractured specimens indicate a chang
e in the fracture mechanism as the cenosphere volume fraction increases. Es
timate of the composite modulus using the Halpin-Tsai model with porosity c
orrection matches closely with the test results. (C) 2000 Kluwer Academic P
ublishers.