Accurate Ultrasonic Thickness Measurement for Arbitrary Time-Variant Thermal Profile

Author:

Palanisamy Rajendra P.1ORCID,Pyun Do-Kyung1,Findikoglu Alp T.1

Affiliation:

1. Materials Physics and Applications (MPA), Los Alamos National Laboratory, Los Alamos, NM 87545, USA

Abstract

Ultrasonic thickness measurement of mechanical structures is one of the most popular and commonly used nondestructive methods for various kinds of process control and corrosion monitoring. With ultrasonic propagation speed being temperature-dependent, the thickness measurement can be performed reliably only when the thermal profile is completely known. Most conventional techniques assume the temperature of the test structure is uniform and at room temperature across its thickness. Such assumptions may lead to large errors in the thickness measurement, especially when there are significant temperature variations across the thickness. State-of-the-art techniques use external temperature measurements or implement iterative methods to compensate for the unknown thermal profiles. However, such techniques produce unsatisfactory results when the heat distribution is complex or varies rapidly with time. In this work, we propose a two-sensors technique, using both compressive and shear excitations, with a non-iterative rapid data processing method for accurate thickness measurement under arbitrary time-variant thermal profile. The independent behavior of shear and compressive waves is used to formulate a real-time thickness estimation technique. The developed technique is experimentally validated on a steel plate with fixed acoustic sensors. Test results show that the error in thickness estimation can be reduced by up to 98% compared to conventional thickness gauging methods.

Funder

U.S. Department of Energy through the Los Alamos National Laboratory

Publisher

MDPI AG

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