Inspecting Composites with Airborne Ultrasound: Through Thick and Thin

The inspection of composite materials and structures with air‐coupled ultrasound has the obvious advantage that it is non‐contact, non‐contaminating, and free from couplants. However, the transmission efficiency from air to solid is extremely low due to the enormous difference in acoustic impedance. The development of more efficient airborne ultrasonic transducers over the years has made it possible, and even practical, to inspect composites with airborne ultrasound. It is now possible to drive newer, more efficient transducers with a portable ultrasonic flaw detector to inspect 2‐inch thick solid CFRP in air. In this paper we describe our experience in applying air‐coupled ultrasound to the inspection of a variety of composite structures, from honeycomb with thin composite facesheet to very thick solid laminates. General considerations for making airborne ultrasonic measurement in composite are given, and mechanism of transmission through honeycomb core, and resonance effects in transmitting through thic...