研究未来引力波探测器真空系统中应用的部分低碳钢

Carlo Scarcia, Giuseppe Bregliozzi, Paolo Chiggiato, Alice Ingrid Michet, Ana Teresa Perez Fontenla, Martino Rimoldi, Mauro Taborelli, Ivo Wevers
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摘要

像宇宙探测器和爱因斯坦望远镜这样的下一代引力波探测器(GWD)需要大量真空管道,因此必须使用具有成本效益的材料。本研究探讨了低碳钢作为奥氏体不锈钢替代品用于超高真空管的可行性,重点关注低温烘烤后的放气率和表面化学性质。在 80{\deg}C 温度下烘烤 48 小时后,低碳钢的氢气放气率明显降低,低于 10$^{-14}$mbar l s$^{-1}$ cm$^{-2}$。虽然水蒸气是这种低温烘烤后的主要残留气体,但反复处理可降低水蒸气的放气率并改变表面状况,因此在实验室空气中暴露至少六个月后,水蒸气的优点仍能保持。这些发现使低碳钢成为未来 GWD 压管的一种经济、高效的材料。
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Study of selected mild steels for application in vacuum systems of future gravitational wave detectors
Next-generation gravitational wave detectors (GWDs) like the Cosmic Explorer and Einstein Telescope require extensive vacuum tubing, necessitating cost-effective materials. This study explores the viability of mild steel as an alternative to austenitic stainless steel for UHV beampipes, focusing on outgassing rates and surface chemistry after low-temperature bakeouts. Mild steels exhibit significantly lower hydrogen outgassing rates, below 10$^{-14}$ mbar l s$^{-1}$ cm$^{-2}$ after bakeouts at 80{\deg}C for 48 hours. While water vapor is the primary residual gas after such low-temperature bakeouts, repeated treatments reduce its outgassing rate and modify surface conditions so that such benefit is preserved after at least six months of exposure to laboratory air. These findings position mild steel as an economical and efficient material for future GWD beampipes.
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