Extraction of Features due to Breathing Crack from Vibration Response of Rotated Blades considering Tenon Connection and Shroud Contact

الملخص EN

Cracks are common failures of aeroengine rotated blades.

Online monitoring of rotated blades through their vibration to identify cracks early in various working conditions is significant for operational safety.

Breathing crack is a practical form of early cracks and results in nonlinear vibration response.

Tenon connection and shroud contact are common structures in aeroengine rotated blades, which can also lead blades to vibrate nonlinearly and seriously interfere online identification of early cracks.

Thus, it is important to extract vibration features due to breathing crack considering these two structures.

Firstly, a blade with tenon and shroud is simplified and a lumped parameter model of the bladed disk is built.

Then, dry friction and coupling force on a blade are analyzed and dynamics equations of the lumped parameter model are established.

Next, the stiffness of the blade trunk with a breathing crack is analyzed.

Finally, the vibration response of blade trunks with the occurrence of breathing crack is analyzed in time and frequency domains by numerical simulation.

Effective features due to breathing crack for online identification are extracted.

2x components of spectrums can be the criterion to judge whether breathing crack occurs.

Besides, by comparing the changes in vibration amplitudes with 1x component peaks of spectrums, the cracked blade trunk can be distinguished.

These findings can provide important theoretical guidance for online identification of early cracks in aeroengine rotated blades.