Experimental implementation of shock waves propagation within multi-materials stacks -- Application to bonded assemblies' evaluation by laser adhesion test

The Laser Adhesion Test (LASAT) process is based on propagating calibrated shock waves generated by laser within a multi-materials stack to evaluate interface mechanical strength. In this work we present results from laser shocks experiments performed recently on various multi-materials stacks. Experiments were realized on two different laser-shock facilities in order to study the response of above-mentioned assemblies under 7−40 ns pulses in direct irradiation and water-confined irradiation. Free-Surface Velocity (FSV) monitoring was achieved with Velocity Interferometer System for Any Reflector (VISAR) or Photonic Doppler Velocimetry (PDV) system. Various post-shock diagnostics such as ultrasonic testing, tomography and micrographs were also employed to give complementary information on debonding or substrates fracture. The aim of this work is to propose an interpretation of the resulting FSV curves in terms of shock waves propagation, transmission, reflection and eventual fracturing of substrates or epoxy layer. Further discussion should then describe the results of LASAT characterization of these samples, emphasizing the correlation between debonding thresholds and bonding quality.