ABCs of ultrasonic inspection

Sidebar From: CompositesWorld,

Posted on: 11/1/2013

A primer on nondestructive ultrasonic inspection technology.

Editor's Commentary

This short article is a sidebar to the feature article titled "Nondestructive inspection: Better, faster and cheaper." To read the main article, click on its title under "Editor's Picks."

Conventional (non-laser induced) ultrasound (UT) is generated by an element (transducer) made of a piezoelectric material that converts an electrical pulse into a mechanical vibration, which, in turn, induces ultrasonic waves in a test specimen. Any time there is a change in acoustic impedance — such as occurs with a delamination or void — some of the acoustic energy is reflected. The waves that are reflected back to the transducer are converted into a raw electrical signal, measuring amplitude vs. time (think of a seismogram).

For phased-array systems, the probe is composed of multiple elements, which can independently transmit and receive. Time delays are applied to different elements of the probe to focus, steer and scan the beam across the surface. “In the medical field, you can get most of the transmitted ultrasonic energy into our bodies because we are mostly water, but because there is little change in impedance, signal post-processing is often necessary to obtain high-resolution images,” says Deborah Hopkins, BERCLI Corp. (Berkeley, Calif.). “With composites, the issue is strong attenuation caused by inhomogeneity and anisotropy of the material, so you lose energy as a function of distance traveled.” Hopkins says most phased-array ultrasonic applications operate in the range of 2 to 15 MHz.


Learn More

Editor's Picks

Nondestructive inspection: Better, faster and cheaper

Faced with new time and cost pressures, NDI system suppliers are integrating inspection wi...


Suppliers | Products | Experts | News | Articles | Calendar | Process Zones

The Voice of the Finishing Industry Since 1936 Copyright © Gardner Business Media, Inc. 2014

Subscribe | Advertise | Contact Us | All Rights Reserved