Exploiting phase-based motion magnification for the measurement of subtle 3D deformation maps with FP+2D-DIC

Phase-Based Motion Magnification (PBMM) is an effective methodology to visualise imperceptible phenomena based on magnifying periodic subtle movements on image sequences. Moreover, the integration of the optical techniques Fringe Projection and 2D Digital Image Correlation (FP + 2D-DIC) make it possible to obtain 3D displacement maps employing a single camera.In this study, the integration of PBMM with FP + 2D-DIC is exploited for the determination of subtle 3D displacements. An initial solid-rigid test validates of the combination of those techniques. A later test, employing a cantilever beam, demonstrates its correct performing in the determining of Operational Deflection Shapes. In both cases, the results are compared with those obtained with 3D-DIC and Scanning Laser Doppler Vibrometer (SLDV) to evaluate the relation between the magnification factor and the result obtained. Finally, the potential of the proposed integration for the determination of complex mode shapes is demonstrated by obtaining the ODSs of an industrial component.

Automated summary

Phase-Based Motion Magnification (PBMM) combined with Fringe Projection and 2D Digital Image Correlation (FP + 2D-DIC) is an effective method for visualizing imperceptible phenomena and obtaining 3D displacement maps using a single camera. The integration of these techniques is validated through tests and compared with other methods. The potential of this integrated approach for determining complex mode shapes is demonstrated.