Fatigue-crack propagation behavior of HT-9 steel

From previous investigations of the mechanisms of both fracture and fatigue crack propagation, the static fracture model proposed by Lal and Weiss may be thought as reasonable for describing fatigue crack propagation in metals at both low and interm~iate stress intensity factor ranges AK. Recent pro

## AImWet -Based on the fatigue crack propagation (FCP) expression developed by X. Zheng and M. A. Hirt. a new method for the estimation of FCP rate is suggested. It is pointed out that when Ak;,, (the FCP threshold) and the mechanism in the intermediate region of FCP are known, the FCP rates can

## AMraet-Fatigue crack growth rate was found to be independent of grain size in 309!3 stainless steel, for grain sizes of 45 and 480 pm. The data were compared to literature results for a variety of stabk and mtstabie austerdtic alloys, and were shown to agree well, THE RECENT literature on fatig

The relative fatigue crack propagation resistance of plain and carbon fiber-reinforced ultrahigh molecular weight polyethylene (UHMWPE) was determined from cyclic loading tests performed on compact tension specimens machined from the tibia1 components of total knee prostheses. Both materials were ch