Fractal Dimensions of Hydrogen Induced Brittle Fracture of Titanium Aluminide

The relationship between the stress intensity factor K;required for brittle crack initiation and propa-gation and the fractal dimension D;of the fracture surface was derived,i.e,InK;=（1/2）In2γE’+（1/2）In（d;/L;）(1-D;)The real surface energy can be calculated based on the measured linear relation of the InK;vs D;,The equation is not only suitable for the overload fracture but also for the delayed fracture,e.g.hydrogen induced cracking （HIC） and stress corrosion cracking （SCC）.The experiment resultsshowed that the hydrogen induced delayed cracking occurred in the Ti-24AI-11 Nb alloy during dy-namic charging,and the threshold stress intensity factor was very low,i.e..K;/K;= 0.43.The ex-perimental relationship between the stress intensity factor K;and D;was consistent with the theo-retical equation.