Simultaneous Measurement of Thickness and Elastic Properties of Thin Plastic Films by Means of Ultrasonic Guided Waves

Ultrasonic guided waves are already used for material characterization. The advantage of these waves is that they propagate in the plane of a plate and their propagation characteristics are sensitive to properties of the material. The objective of this research was to develop an ultrasonic method that could be used to measure the properties of thin plastic polyvinylchloride films (PVC). The proposed method exploits two fundamental Lamb wave modes, A(0) and S-0, for measurement of a thin film thickness and Young's modulus. The Young's modulus is found from the measured phased velocity of the S-0 mode and the film thickness from the velocities of both A(0) and S-0 modes. By using the proposed semi-contactless measurement algorithm, the Young's modulus and thickness of different thickness (150 mu m and 200 mu m) PVC films were measured. The uncertainty of thickness measurements of the thinner 150 mu m PVC film is 2% and the thicker 200 mu m PVC film is 3.9%.

Automated summary

This research focuses on developing an ultrasonic method to accurately measure the Young's modulus and thickness of thin plastic polyvinylchloride films (PVC). By utilizing two fundamental Lamb wave modes, A(0) and S-0, as well as a semi-contactless measurement algorithm, the Young's modulus and thickness of PVC films with different thicknesses (150 μm and 200 μm) were successfully measured with uncertainties of 2% and 3.9% respectively.