EFFECT OF THE MICROCRACK INCLINATION ANGLE ON CRACK PROPAGATION BEHAVIOR OF TIAL ALLOY

RC Feng and JT Lu and HY Li and H Cao and ZY Rui, STRENGTH OF MATERIALS, 49, 75-82 (2017).

DOI: 10.1007/s11223-017-9844-x

Molecular dynamics simulation was employed to make the model of crack propagation for singlecrystal gamma-TiAl alloy. The effects of the angle between a microcrack and loading direction on crack propagation were studied through the analysis of the atomic configurations and stress- strain curves in the paper. The results show that the time for the emission of first dislocation and the yield stress value decrease with the angle. The crack propagation occurs by the submain crack mechanism, which becomes more obvious as the angle increases and the number of stacking faults and stair-rod dislocations decreases.

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