Sz. Liao et al., The structure and infrared spectra of nanostructured MgO-Al2O3 solid solution powders prepared by the chemical method, J MATER PR, 90, 1999, pp. 405-409
Alumina ceramics has been used widely as an industrial material because of
its high heat resistance and excellent wear resistance. Nanosize metal oxid
e used as raw materials would decrease the sintering temperature of ceramic
s and enable their physical and chemical properties to be developed fully.
This paper studies the synthesis of nanostructured alumina-magnesia powders
. The whole compositional range for the binary Al2O3-MgO system is studied.
The powder samples are characterized by X-ray diffraction (XRD), transmiss
ion electron microscopy (TEM), differential thermal analysis (DTA) and infr
ared spectroscopy (IRS).
The results show that the nanostructured alumina-magnesia powders form soli
d solutions in a wide range of composition. In the alumina-rich side, the g
amma-Al2O3 phase is found and the maximum amount of magnesia that can be in
corporated is 30%. In the magnesia-rich side, the MgO phase is present and
the range of solid solutions is from 0 to 20 wt% Al2O3 It is also found tha
t the lattice parameter a(0) of gamma-Al2O3 increases with increase in the
amount of magnesia, but the lattice parameter of the MgO phase decreases wi
th increase in the amount of alumina. The grain size increases linearly wit
h the amount of magnesia added and is smaller than 3.6 nm for alumina solid
solution. It changes in a parabolic manner with the amount of alumina and
is smaller than 15 nm for magnesia solid solution. The specific surface is
about 140 m(2) g(-1) for the powders.
The heat decomposition temperature of the precursor determined by DTA is no
t changed with increase in the amount of magnesia in the gamma-Al2O3 solid
solution range. The heat decomposition temperature increases with increase
in the amount of alumina in the MgO solid solution range. In the range of m
ixed phase, it is greater than those in the range of two solid solutions. T
he results for IRS of the nanostructured alumina-magnesia powders are discu
ssed. (C) 1999 Published by Elsevier Science S.A. All rights reserved.