فهرس المقالات AISI 409

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  1 - Effects of HFRW Variables on Weldded Joint Quality of the Ferritic Stainless Steel to Cr-Mo Low Alloy Steel in Heat Recovery Steam Generator
  M Sadeghi H Sabet H Razavi
  Heat recovery steam generator (HRSG) is obviously a very desirable and environmental friendly energy source, increasing thermal efficiency while reducing energy costs is possible through the use of industrial boilers. In this study, the effect of high frequency resistan أکثر

  Heat recovery steam generator (HRSG) is obviously a very desirable and environmental friendly energy source, increasing thermal efficiency while reducing energy costs is possible through the use of industrial boilers. In this study, the effect of high frequency resistance welding (HFRW) variable factors on joints between AISI 409 stainless steel finned to 2 ¼ Cr-1Mo alloy steel tube as helical finned tube was investigated. So HFRW was implemented on actual samples by changing multiple factors including travel speed, electric potential, current of welding and fin pitch. Meanwhile metallography of weld joint, tensile strength and hardness tests were carried out several sections of the samples according to international standard fin tube. The diffusion zone indicating metallurgical joining more than 90% was measured at the weld interface, with applying optimum welding parameters, fin-tipand tube-tipposition and hydraulic pressure jack setting on squeeze rollers. Furthermore as the lower pitch and fin thickness are selected, the higher quality of fin tube welding joint is achieved. On the other hand as the pitch and fin thickness are reduced, the output transfer surface treatment in final process diminished. However, this paper presents emphasis on finned tube manufacturing processes and the best weld parameters conditions have been reached a sound joint. تفاصيل المقالة
• حرية الوصول المقاله
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  2 - Advanced Manufacturing and Eco-friendly Welding Between AISI 409 Finned to High Pressure T22 Boiler Tube by HFRW Clean Energy
  M Sadeghi H Sabet S. H Razavi
  In this paper, advanced manufacturing and eco-friendly welding between AISI 409 finned to high pressure T22 boiler tube produced by "High-frequency resistance welding (HFRW)" process has been studied. The current development in the power generation industry is HFRW clea أکثر

  In this paper, advanced manufacturing and eco-friendly welding between AISI 409 finned to high pressure T22 boiler tube produced by "High-frequency resistance welding (HFRW)" process has been studied. The current development in the power generation industry is HFRW clean energy contributes to the resolution of the greenhouse effect. HFRW technology was implemented on actual samples by changing multiple parameters. Meanwhile metallography of weld bond, tensile strength and hardness tests were performed on several sections of the samples according to international standard finned tube. The diffusion zone indicating the schematic of weld width and weld depth of finned tube observed under the scanning electron microscopy (SEM) which is used for analyses width are that the weld width must be ≥ 90% of fin thickness which can be calculated at the weld interface, with applying optimum welding parameters. Moreover, as the pitch and fin thickness are reduced, the output transfer surface treatment in final process diminished. Hence, the parametric optimization HFRW and the higher quality of finned tube welding bond is revealed by the best conditions of fin pitch. تفاصيل المقالة