J. Wang scite author profile

The sintering responses of Inconel 625 prealloyed powder (powder size: 80-180 mm accounting for 96 wt-%) were first assessed using dilatometry. Then, sintering of Inconel 625 tubes (W54 mm61000 mm), shaped by cold isostatic pressing from prealloyed powder at 170 MPa, was studied at temperatures between 1180 and 12608C in vacuum and hydrogen. Sharp, rapid shrinkage of Inconel 625 prealloyed powder was observed at 12408C when sintered in vacuum, while this temperature was postponed to 12608C when sintered in hydrogen due to the cooling effect of the large hydrogen gas flow. It is shown that sintering in hydrogen is better suited to the fabrication of high performance porous Inconel 625 tubes than sintering in vacuum. The preferred isothermal sintering conditions were determined to be sintering in hydrogen at 12408C for 120 min, which resulted in balanced mechanical strength and gas permeability. The as sintered porous Inconel 625 tubes (W54 mm61000 mm) have been used to filter hot (up to 4008C) gas mixtures of SiHCl 3 and HCl in continuous industrial operations for 6 months and demonstrated outstanding performance.

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J. Wang

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