Air bake-out to reduce hydrogen outgassing from stainless steel

M. Bernardini; S. Braccini; R. De Salvo; A. Di Virgilio; A. Gaddi; A. Gennai; G. Genuini; A. Giazotto; G. Losurdo; H. B. Pan; A. Pasqualetti; D. Passuello; P. Popolizio; F. Raffaelli; G. Torelli; Z. Zhang; C. Bradaschia; R. Del Fabbro; I. Ferrante; F. Fidecaro; P. La Penna; S. Mancini; R. Poggiani; P. Narducci; A. Solina; R. Valentini

Journal ArticleOPEN ACCESS

Air bake-out to reduce hydrogen outgassing from stainless steel

Bernardini M
Braccini S
De Salvo R
et al.

Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films (1998) 16(1) 188-193

DOI: 10.1116/1.580967

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Abstract

Hydrogen outgassing is the most significant factor limiting the attainment of outgassing rates below 10−12 mbar l s−1 cm−2 in stainless steel vacuum systems. This limit turns out to be crucial in very large vacuum systems, like the VIRGO vacuum tubes (2 tubes 1.2 m diam, 3000 m length). Heating the raw material at 400 °C in air was suggested as a money saving alternative to the classical vacuum heating at 950 °C. We report the results of hydrogen content analysis performed on stainless steel samples submitted to different treatments, and also the measurement performed on a prototype tube (1.2-m-diam, 48-m-long). We concluded that air bake-out drives out most of the hydrogen absorbed in the bulk stainless steel, while the presence of an oxide layer does not reduce the hydrogen outgassing.

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Bernardini, M., Braccini, S., De Salvo, R., Di Virgilio, A., Gaddi, A., Gennai, A., … Valentini, R. (1998). Air bake-out to reduce hydrogen outgassing from stainless steel. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 16(1), 188–193. https://doi.org/10.1116/1.580967

Air bake-out to reduce hydrogen outgassing from stainless steel

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