NONCONTACT-TYPE THICKNESS MEASURING METHOD AND DEVICE OF IN-LIQUID STEEL STRUCTURE

PROBLEM TO BE SOLVED: To provide a noncontact type thickness measuring method and a device of an in-liquid steel structure having low cost and high reliability, capable of realizing continuous thickness measurements of the in-liquid steel structure, without having to remove the adhesives adhering to...

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Hauptverfasser:	MATSUMOTO SAYURI, SHIRAI KAZUHIRO
Format:	Patent
Sprache:	eng
Schlagworte:	MEASURING MEASURING ANGLES MEASURING AREAS MEASURING IRREGULARITIES OF SURFACES OR CONTOURS MEASURING LENGTH, THICKNESS OR SIMILAR LINEARDIMENSIONS PHYSICS TESTING
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creator	MATSUMOTO SAYURI SHIRAI KAZUHIRO
description	PROBLEM TO BE SOLVED: To provide a noncontact type thickness measuring method and a device of an in-liquid steel structure having low cost and high reliability, capable of realizing continuous thickness measurements of the in-liquid steel structure, without having to remove the adhesives adhering to the in-liquid steel structure. SOLUTION: An ultrasonic transducer 51 is arranged separately in a noncontact state to the in-liquid steel structure 53 which is a measuring object, ultrasonic waves are radiated from the ultrasonic transducer 51 to the in-liquid steel structure 53, and reflected waves reflected from the in-liquid steel structure 53 are received by the ultrasonic transducer 51, and the received reflected wave is subjected to correlation processing, to thereby extract a front-surface reflected wave from the front surface of the in-liquid steel structure 53 and rear-surface reflected waves from the rear surface of the in-liquid steel structure 53. The thickness of the in-liquid steel structure 53 can be calculated, by determining the difference of each arrival time to the ultrasonic transducer 51 between the front-surface reflected waves and the rear-surface reflected waves. COPYRIGHT: (C)2009,JPO&INPIT
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SOLUTION: An ultrasonic transducer 51 is arranged separately in a noncontact state to the in-liquid steel structure 53 which is a measuring object, ultrasonic waves are radiated from the ultrasonic transducer 51 to the in-liquid steel structure 53, and reflected waves reflected from the in-liquid steel structure 53 are received by the ultrasonic transducer 51, and the received reflected wave is subjected to correlation processing, to thereby extract a front-surface reflected wave from the front surface of the in-liquid steel structure 53 and rear-surface reflected waves from the rear surface of the in-liquid steel structure 53. The thickness of the in-liquid steel structure 53 can be calculated, by determining the difference of each arrival time to the ultrasonic transducer 51 between the front-surface reflected waves and the rear-surface reflected waves. 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SOLUTION: An ultrasonic transducer 51 is arranged separately in a noncontact state to the in-liquid steel structure 53 which is a measuring object, ultrasonic waves are radiated from the ultrasonic transducer 51 to the in-liquid steel structure 53, and reflected waves reflected from the in-liquid steel structure 53 are received by the ultrasonic transducer 51, and the received reflected wave is subjected to correlation processing, to thereby extract a front-surface reflected wave from the front surface of the in-liquid steel structure 53 and rear-surface reflected waves from the rear surface of the in-liquid steel structure 53. The thickness of the in-liquid steel structure 53 can be calculated, by determining the difference of each arrival time to the ultrasonic transducer 51 between the front-surface reflected waves and the rear-surface reflected waves. 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subjects	MEASURING MEASURING ANGLES MEASURING AREAS MEASURING IRREGULARITIES OF SURFACES OR CONTOURS MEASURING LENGTH, THICKNESS OR SIMILAR LINEARDIMENSIONS PHYSICS TESTING
title	NONCONTACT-TYPE THICKNESS MEASURING METHOD AND DEVICE OF IN-LIQUID STEEL STRUCTURE
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