Pipe Maintenance Tooling development for the ITER Divertor Remote Handling System
Autor: | T.J. Mindham, Rob Sharratt, Salvador Esque, Chris Lamb, R. Shuff, Steven Craig, Jerome Woodwark, Otto Bede, Ian Merrigan, Eddie McCarron, Luke Thomson |
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Rok vydání: | 2018 |
Předmět: |
Mechanical Engineering
Butt welding Divertor Gas tungsten arc welding Mechanical engineering Welding 01 natural sciences Phased array ultrasonics 010305 fluids & plasmas law.invention Nuclear Energy and Engineering law 0103 physical sciences Water cooling Environmental science Process control General Materials Science 010306 general physics Electromagnetic acoustic transducer Civil and Structural Engineering |
Zdroj: | Fusion Engineering and Design. 136:983-987 |
ISSN: | 0920-3796 |
Popis: | The ITER Divertor’s 316L stainless steel cooling water pipe connections are to be remotely maintained by the first-of-a-kind Divertor Remote Handling System (DRHS) and its suite of cutting, welding and inspection tools. The requirement for welding of the highest quality in a radioactive, magnetic and high temperature environment, places significant technical risks on the technologies selected for use. This paper reports the R&D activities undertaken to mitigate these risks and concludes with the key findings and recommendations for the ongoing design. Gas Tungsten Arc Welding (GTAW) trials demonstrated that a code compliant, autogenous butt weld of 3 mm wall thickness is possible, but requires precise process control, novel techniques, and tight tolerances on material composition. The most significant findings were that vertically-offset filler-rings could be employed to positive effect, and a controlled Sulphur content of 100–150 ppm for the stainless-steel pipework was found to be necessary. The galvanic cell technology selected for the welding back-purge oxygen sensor was tested and verified for use in operating environments of 300 Gy/h gamma dose rate, 3mT magnetic field, and 60 °C ambient temperature. Cutting trials developed optimum parameters for lathe-based orbital cutting with regards to the required tool longevity, the vacuum-clean environment and the need to re-weld the joint. Finally, Volumetric Inspection trials investigated the effectiveness of Electro Magnetic Transducer (EMAT) and Phased Array Ultrasonic Testing (PAUT) methods at detecting a range of manufactured surface and volumetric defects in the weld. EMAT was found better suited to the application, but the work highlighted the need for a deeper understanding of the detection needs and their relationship to potential failure modes. |
Databáze: | OpenAIRE |
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