Production of hydroxyapatite coatings using an alkoxide-based sol-gel route
requires control of solution aging time and heating schedule. P-31 nuclear
magnetic resonance spectroscopy was used to investigate the changes during
aging of the sol and thermal gravimetric analysis employed to study the be
havior of the xerogels as a function of temperature, while final products w
ere determined using X-ray diffraction. Results from P-31 nuclear magnetic
resonance spectroscopy and thermal analysis revealed that sols must be aged
for at least 24 h to complete the reaction of the two reactants. Depositio
n of the sol for coating production will then yield monophasic hydroxyapati
te. Coatings produced from sols aged for less than 24 h yielded calcium oxi
de in addition to hydroxyapatite. Prefiring is necessary to remove most of
the residual organic materials. Final heating up to 800 degrees C produces
crystallization at 550 degrees C and removal of the remaining organic const
ituents for the formation of a thin hydroxyapatite layer. (C) 1998 Kluwer A
cademic Publishers.