Acoustic pulse-echo wall thickness method and apparatus
First Claim
1. Acoustic pulse-echo wall thickness testing method, comprising the steps ofgenerating acoustic pulses in opposite directions simultaneously,reflecting one of said pulses into a path normal to said wall,reflecting the other of said pulses into a path oblique to said wall, andreceiving returning pulses along both said paths to determine thickness and presence of an anomaly in said wall.
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Abstract
An apparatus and method for making wall thickness measurements. It is particularly applicable to pipeline use. It uses a pulse-echo acoustic arrangement with a single piezoelectric transducer sending and receiving acoustic signals from both faces. It has a pair of reflectors, one for each face of the transducer so that acoustic energy is directed both normal to the wall and at an angle in order to simultaneously measure the wall thickness and find any anomaly such as pitting or the like. For pipeline use there may be a plurality of instruments situated around the periphery of a unit to scan the walls as it travels through the pipeline.
18 Citations
6 Claims
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1. Acoustic pulse-echo wall thickness testing method, comprising the steps of
generating acoustic pulses in opposite directions simultaneously, reflecting one of said pulses into a path normal to said wall, reflecting the other of said pulses into a path oblique to said wall, and receiving returning pulses along both said paths to determine thickness and presence of an anomaly in said wall.
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2. Apparatus for measuring wall thickness using an acoustic pulse-echo procedure, comprising in combination
means for generating simultaneous pulses in opposite directions, means for reflecting one of said pulses into path normal to said wall, means for reflecting the other of said pulses into a path oblique to said wall, and means for receiving returning pulses at said generating means.
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5. Apparatus for measuring wall thickness using an ultrasonic pulse-echo procedure, comprising
a piezoelectric transducer having parallel faces situated transversely to said wall, a first polished metal reflector situated at forty-five degrees relative to said wall and spaced from one of said transducer faces for reflecting a pulse normal to said wall, a second polished metal reflector situated at an oblique angle more than forty-five degrees relative to said wall and spaced from the other of said transducer faces for reflecting a pulse at an oblique angle to said wall, and means for receiving returning pulses at said transducer faces.
Specification