Location

Williamsburg, VA

Start Date

1-1-1986 12:00 AM

Description

Laser interferometry has important advantages for studies of acoustic emission and for ultrasonic NDE. It permits accurate, quantitative, non-contact measurement of local displacements normal to the surface of a metal, composite, or ceramic specimen over a wide range of environmental conditions. The interferometer can be internally calibrated to yield absolute displacement amplitudes. With transparent materials, the interferometer can measure internal wave propagation as well. Commonly, the surface displacements are measured at one or more spots [1,2] on the surface — the probe beam can be focused to spots whose diameters range from 0.02 to less than. 002mm depending on the f/no of the beam. These temporal records of surface displacement or internal strain correspond to bandwidths limited solely by the electronic amplifier. For the measurements, the surface under test may be polished, at least at the point or points of measurement; alternatively, small 2 × 2 × 0. 1mm mirrors can be attached to the surface. But it is possible to make measurements, albeit at lower sensitivity, even if the surface is not polished at all, provided a reasonable amount of light is scattered back into the interferometer.

Book Title

Review of Progress in Quantitative Nondestructive Evaluation

Volume

5A

Chapter

Chapter 3: Sensors and Signal Processing

Section

Sensors

Pages

651-658

DOI

10.1007/978-1-4615-7763-8_67

Language

en

File Format

application/pdf

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Jan 1st, 12:00 AM

Sensitive Laser Interferometer for Acoustic Emission and Ultrasonic NDE

Williamsburg, VA

Laser interferometry has important advantages for studies of acoustic emission and for ultrasonic NDE. It permits accurate, quantitative, non-contact measurement of local displacements normal to the surface of a metal, composite, or ceramic specimen over a wide range of environmental conditions. The interferometer can be internally calibrated to yield absolute displacement amplitudes. With transparent materials, the interferometer can measure internal wave propagation as well. Commonly, the surface displacements are measured at one or more spots [1,2] on the surface — the probe beam can be focused to spots whose diameters range from 0.02 to less than. 002mm depending on the f/no of the beam. These temporal records of surface displacement or internal strain correspond to bandwidths limited solely by the electronic amplifier. For the measurements, the surface under test may be polished, at least at the point or points of measurement; alternatively, small 2 × 2 × 0. 1mm mirrors can be attached to the surface. But it is possible to make measurements, albeit at lower sensitivity, even if the surface is not polished at all, provided a reasonable amount of light is scattered back into the interferometer.