首页|Optical nondestructive evaluation for minor debonding defects and interfacial adhesive strength of solid propellant
Optical nondestructive evaluation for minor debonding defects and interfacial adhesive strength of solid propellant
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NSTL
Elsevier
Minor debonding defects and weak adhesion impair solid propellant integrity, which may cause rocket launch failure. However, it's difficult to identify these interfacial bonding problems in-situ by the common temporal phase-shifting method due to its inaccurate phase calculation and background noises. In this work, a real-time phase processing method with high-frequency synchronizing trigger technology is proposed to improve phase map quality and anti-interference performance in the phase-shifting process. The method is applied to shearography/ESPI optical nondestructive measurement systems to detect minor debonding defects with minimum diameter of 2 mm and evaluate interfacial adhesive strengths of the bonding layers, respectively. The results show that stable and high-contrast phase maps are obtained in real-time from a large field of view, indicating that the detection capabilities of shearography/ESPI are enhanced via the application of the method. This work would contribute to the in-situ nondestructive evaluation of minor defects and weak adhesion in solid propellants.
Minor debonding defectsAdhesive strengthSolid propellantShearographyESPISHEAROGRAPHYDAMAGEPERFORMANCESYSTEMMODEL
NSTL
Elsevier
