Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes
Cracks; Fatigue of materials; Plates (structural components); Probes; Steel testing; Ultrasonic testing; Acoustic emission techniques; Bending force; Bending process; Crack monitoring; Excitation frequency; Failure points; Fatigue cracks; Original design; Acoustic emission testing
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2023
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my.uniten.dspace-254252023-05-29T16:09:16Z Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes Ali K. Rifai D. Siaw Paw J.K. Abdalla A.N. Hen C.K. Sukor M.F.M. Ismail Z. Ding T.J. 36130958600 56167376800 22951210700 56050971600 36994481200 57217221925 57212374688 38863172300 Cracks; Fatigue of materials; Plates (structural components); Probes; Steel testing; Ultrasonic testing; Acoustic emission techniques; Bending force; Bending process; Crack monitoring; Excitation frequency; Failure points; Fatigue cracks; Original design; Acoustic emission testing Bending force and fatigue-induced crack is a generally assured trouble in industrial pipe line achieving their original design life. An amount of high-profile accidents has been covered in the past that involved bending and fatigue harm in structures. Such that incidences frequently encounter without prior warnings ascribable deficiency of proper crack monitoring method. Called for to discover and monitor the bending and fatigue crack, ultrasonic (UT) and acoustic emission (AE) technique, has been encountering growing concerns recently. This paper presenting the measurement and effect of bending test at carbon steel plate with different length and defect's depth by using ultrasonic testing with considering the defect size at failure point. The zero-degree probe and 4MHz excitation frequency is used in UT measuring for condition of S55C carbon steel plate within before bending process and after bending process. From the result show that effect of bending force will increase the velocity (m/s), gain (dB), beam path (mm) and thickness plate (mm) based on the defect sizes. The increasing of four parameters can be explained namely 0.19%-0.3% velocity, 17%-20% gain, 10%-12% beam path and 5.0%-7.5% thickness of plate. � 2020 Published under licence by IOP Publishing Ltd. Final 2023-05-29T08:09:15Z 2023-05-29T08:09:15Z 2020 Conference Paper 10.1088/1742-6596/1532/1/012027 2-s2.0-85086803686 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85086803686&doi=10.1088%2f1742-6596%2f1532%2f1%2f012027&partnerID=40&md5=3b0f38046b5fed456f6c3f2e721348cc https://irepository.uniten.edu.my/handle/123456789/25425 1532 1 12027 All Open Access, Bronze Institute of Physics Publishing Scopus |
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Cracks; Fatigue of materials; Plates (structural components); Probes; Steel testing; Ultrasonic testing; Acoustic emission techniques; Bending force; Bending process; Crack monitoring; Excitation frequency; Failure points; Fatigue cracks; Original design; Acoustic emission testing |
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36130958600 |
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36130958600 Ali K. Rifai D. Siaw Paw J.K. Abdalla A.N. Hen C.K. Sukor M.F.M. Ismail Z. Ding T.J. |
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Conference Paper |
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Ali K. Rifai D. Siaw Paw J.K. Abdalla A.N. Hen C.K. Sukor M.F.M. Ismail Z. Ding T.J. |
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Ali K. Rifai D. Siaw Paw J.K. Abdalla A.N. Hen C.K. Sukor M.F.M. Ismail Z. Ding T.J. Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
author_sort |
Ali K. |
title |
Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
title_short |
Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
title_full |
Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
title_fullStr |
Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
title_full_unstemmed |
Effect of Crack on Bending Process for S55c Carbon Steel with Ultrasonic Testing on Zero Degree Probes |
title_sort |
effect of crack on bending process for s55c carbon steel with ultrasonic testing on zero degree probes |
publisher |
Institute of Physics Publishing |
publishDate |
2023 |
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1806426301129555968 |
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13.214268 |