and Shevaldykin, V.G., Possibilities of assessing the nature of metal discontinuity using an ultrasonic tomograph with digital focusing of the antenna array, Kontrol’ Diagn., 2011, no. and Durgamadhaba, M., Project specific AUT automatic ultrasonic testing validation to determine height sizing accuracy for pipeline girth weld ECA acceptance criteria, Abu Dhabi Int.
![download reflector 3 download reflector 3](https://airmore.com/wp-content/uploads/2018/02/alternative-to-reflector-3.jpg)
404–423.ĭNV-OS-F101:2013, Offshore Standard for Submarine Pipeline Systems, Appendix E, 2013.Īutomated Ultrasonic Testing of Pipeline Girth Welds. 7–21.īazulin, E.G., Comparison of systems for ultrasonic nondestructive testing using antenna arrays or phased antenna arrays, Russ. Determination of the type of a discontinuity in ultrasound testing with antenna arrays, Kontrol’ Diagn., 2015, no.
![download reflector 3 download reflector 3](https://windows-cdn.softpedia.com/screenshots/Squirrels-Reflection_10.png)
1, pp. 64–70.īazulin, E.G., Vopilkin, A.Kh., and Tikhonov, D.S., Improving the reliability of ultrasonic testing. Voronkov, V.A., Voronkov, I.V., Kozlov, V.N., Samokrutov, A.A., and Shevaldykin, V.G., On the applicability of antenna array technology in ultrasonic testing of hazardous production facilities, V Mire NK, 2011, no.
![download reflector 3 download reflector 3](https://cracklike.com/wp-content/uploads/2021/06/2121-1.png)
Accessed January 9, 2021.Īdvances in Phased Array Ultrasonic Technology Applications, Waltham: Olympus NDT, 2007. and Stewart, D., CIVA modeling for pipeline zonal discrimination, E-J. Mirmajid, G., Codes for automatic ultrasonic testing (AUT) of pipeline girth welds, 11th Eur.