A momentary-contact system for ultrasonic testing of steel at temperatures up to 1 200°C

Goode, G.E.; Lewis, R. M.

doi:10.1016/0029-1021(75)90032-8

Cited by 4 publications

(1 citation statement)

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“…There are various factors that affect the ultrasonic test results at high temperatures. The temperature changes cause ultrasonic velocity changes, which in turn causes a change of beam angle there by improper location of the defects (2,3) . The testing of welds at high temperatures requires highly specialised and costly transducer for continuous scanning, which are not easily available.…”

Section: Introductionmentioning

confidence: 99%

Ultrasonic study for flaw detectability in ferritic butt welds at high temperatures

Baby¹,

Balasubramanian²,

Pardikar³

2003

Insight - Non-Destructive Testing and Condition Monitoring

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This paper describes the problems encountered during ultrasonic testing of welds at high temperatures, the overall assessment of sound propagation at high temperatures and an innovative technique to circumvent the problems using the conventional probes. In the absence of high temperature transducers an attempt has been made by the authors to examine the welds in the high temperature zone up to 300°C by using contact angle beam probes (less than 4MHz) and scanning from the region (beyond 5 th Vee path) at room temperature. The experimental study involved embedment of natural defects like cracks, incomplete penetration, porosity etc., in the ferritic butt weld (16mm thickness) at predetermined locations. The comparative study was carried out between the responses obtained from the defects at ambient temperature and elevated temperatures. The analysis of the results have shown that the attenuation of ultrasound increases as the temperature at the weld zone increases. It can be seen from the results of the experiments that by making the attenuation corrections at elevated temperatures it is possible to inspect the welds below 300°C without substantial performance loss at test frequencies less than 4MHz.

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Section: Introductionmentioning

confidence: 99%