Abstract No.:	5963
Scheduled at:	Thursday, May 23, 2019, Saal Brüssel 11:20 AM Development of brazing metals
Title:	Surface deoxidation mechanisms of stainless steels in vacuum brazing processes
Authors:	Cornelia Strauß* / Technical University Clausthal, Germany René Gustus / Clausthal Center of Material Technology, Technical University Clausthal, Germany Wolfgang Maus-Friedrichs/ Clausthal Center of Material Technology, Technical University Clausthal, Germany Simon Schöler/ Institute of Materials Science, Leibniz University Hannover, Germany Ulrich Holländer/ Institute of Materials Science, Leibniz University Hannover, Germany Kai Möhwald/ Institute of Materials Science, Leibniz University Hannover, Germany
Abstract:	Stainless steels are used in a wide variety of applications due to their excellent corrosion resistance. Yet, in a vacuum brazing process, wetting the workpiece surface with molten braze is a crucial procedural step  which is inhibited by the surface oxide layer, responsible for corrosion protection. Removal of this oxide layer thus becomes of outmost importance. Procedural knowledge is vast and its implementation is evident from the successfully carried out fluxless brazing processes. But the exact thermophysical and chemical processes leading to a wettable surface remain unknown. We compare two stainless steels, AISI 304 and 446, the first one being known to be easily joined by vacuum brazing, the latter on the other hand being much more demanding. We study the effect of oxygen partial pressure in the ranges between ultrahigh vacuum (UHV) and high vacuum (HV) on the composition of both surface and bulk. While AISI 304 shows no detectable dependency on oxygen partial pressure within the observed range, AISI 446 shows an onset oxygen partial pressure above which its surface manifests coverage with aluminum oxide. In conclusion, a deoxidation mechanism is proposed.

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