THEORETICAL AND EXPERIMENTAL STUDIES OF LONGITUDINAL ULTRASONIC GUIDED WAVE PROPAGATION CHARACTERISTICS IN WATER-FILLED PIPES

Abstract

Longitudinal ultrasonic guide wave dispersion equation of inviscid liquid-filled pipe is analyzed theoretically. Propagation characteristics of longitudinal modes in water-filled steel pipe and water cylinder with rigid boundary are studied. Except a mode, other modes in wall-filled steel pipe are the coupling of the modes of steel pipe in vacuum and of water cylinder with rigid boundary. To the same mode in water-filled steel pipe, its propagation characteristics vary greatly with frequency range. Furthermore, longitudinal modes are excited and received in steel pipes filled with and without water experimentally. Results show that propagation characteristics, such as mode branching and group velocity decrease, occur in water-filled steel pipe. When frequency band of longitudinal mode in water-filled steel pipe is in the range of one unperturbed L(0, 2) mode branching of steel pipe in vacuum, the mode has the ability of long distance propagation, and the signal shape and amplitude are retained as it travels long distances for its low dispersion. As a result, the kind of longitudinal mode is suitable to defect detection of long distance water-filled pipe.