S. Raynaud et al., DYNAMIC FATIGUE AND DEGRADATION IN SOLUTION OF HYDROXYAPATITE CERAMICS, Journal of materials science. Materials in medicine, 9(4), 1998, pp. 221-227
Polycrystalline hydroxyapatite was densified by hot pressing. The diss
olution process in aqueous solution and the effects of environment on
dynamic fatigue resistance of the resulting HAP ceramics were investig
ated. Pure water or Ringer's solution strongly enhances subcritical cr
ack growth. The crack propagation exponent decreases from 22.5(+/-2) i
n air to 10(+/-4) in Ringer's solution for materials densified at 98%
of the theoretical value. The residual porosity ratio is also very det
rimental for the mechanical reliability. Both fatigue resistance and i
mmediate fracture strength are decreased, with values of only 14(+/-4)
for the propagation exponent and 40 MPa for the tensile strength (com
pared to 90 MPa at 98% relative density) for materials densified at 94
% tested in air. The degradation in solution appears to be governed by
uniform physico-chemical dissolution of crystalline HAP phase at the
surface of the material. This dissolution is accompanied by a decohesi
on of grains located around residual pores which leads to the growth o
f local surface defects. (C) 1998 Chapman & Hall.