A life prediction model coupled with residual stress and initial damage on aerofoil specimens subjected to foreign object damage

Foreign object damage (FOD) has been identified as one of the main concerns for fan blades. In this paper, systematic experimental and numerical investigations are conducted on aerofoil specimens subjected to FOD by a falling object. The failure mechanism is attributed to the combination of stress concentration, residual stress, and initial damage. Finite element analysis is carried out to simulate the stress field. Using the experimental data from smooth, typically notched, and FOD notched specimens, a novel theory of critical distance model coupling residual stress and initial damage is proposed, falling in a scatter band of 2.

Automated summary

This paper conducts systematic experimental and numerical investigations on the failure mechanism of fan blades subjected to foreign object damage. Based on the analysis, a novel theory of critical distance model coupling residual stress and initial damage is proposed.