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We analyze fatigue-crack growth rate diagrams for various modifications of a Ti-Si cermet alloy in the initial (as-cast) state and after thermomechanical treatment plotted for beam specimens subjected to three-point bending. It is shown that, for different asymmetries of the loading cycle, the maximum stress intensity factor Kmaxbetter describes the behavior of the growth rate of fatigue macrocracks in the high-amplitude part of the diagrams than the range of the stress intensity factor ΔK. The threshold crack resistance of the Ti-Si composite under cyclic loading is 2-5 times lower than under long-term static loading. For highly asymmetric loading cycles (R = 0.6), the maximum cyclic crack-growth resistance is exhibited by a modification with the structure of grains of pseudo-α-titanium matrix 20-40μm in size and 15-30wt.% of dispersed precipitations of titanium and intermetallic silicides 5-10μm in size.

Original publication

DOI

10.1023/A:1020120714703

Type

Journal article

Journal

Materials Science

Publication Date

01/01/2002

Volume

38

Pages

55 - 61