Despite the extensive literature on the mechanical characteristics and fail
ure properties of poly(methyl methacrylate) bone cement, little is known of
its fatigue crack initiation process. The most likely in vivo bone cement
fatigue crack initiation sites are internal flaws and irregularities on the
bone cement surface. The stress concentration created by a flaw, and subse
quently the stress state at that flaw, depends on the flaw geometry. To mod
el the fatigue crack initiation process of a flaw, it is necessary to repro
duce the stress state at that flaw. In this study, a special mold was desig
ned to introduce notches with specific tip radii into fatigue specimens. Th
e notch was molded into the specimen to simulate the in vivo flaw formation
process. The molding method allows control of the stress concentration by
specifying the notch tip radius. We created notched specimens where the tip
radii of the notches ranged from "sharp" (< 3 mu m) to 400 mu m. The resul
ts demonstrated that notched specimens created by the special mold satisfie
d two necessary requirements for fatigue crack initiation studies: (1) the
material microstructure at the notch tip must not be disrupted by the notch
ing process, and (2) the notch tip stress field, determined by the notch ti
p geometry, must be reproducible. (C) 2000 John Wiley & Sons, Inc.