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Eingeladener Vortrag
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Corrosion Resistance of the Super-Austenitic Stainless Steel UNS S31266 for Geothermal Applications
(2017)
Super-austenitic stainless steels cover grades with high chromium (20 to 27 %), high nickel (18 to 31 %) and high molybdenum (4 to 6 %) contents. Within this family, the 6%Mo high nitrogen grade S31266 was developed to combine the beneficial influence of chromium, tungsten, molybdenum and nitrogen on its mechanical and corrosion properties. Due to 22 % nickel, 24 % chromium and 0.4 % nitrogen additions, this alloy exhibits a very stable microstructure, being less prone to intermetallic phase precipitation than the other highly alloyed super-austenitic stainless steels.
This paper deals with the corrosion resistance of S31266 in artificial geothermal water with moderate salinity and low pH. Long-term static exposures and electrochemical tests were conducted at various temperatures to evaluate the pitting, crevice and stress corrosion cracking resistance of this material.
The results show that S31266 is resistant up to 220 °C. As a consequence, it can be a good candidate material for geothermal applications involving a highly corrosive environment, especially salinity and low pH.
Corrosion Resistance of the Super-Austenitic Stainless Steel UNS S31266 for Geothermal Applications
(2017)
Super-austenitic stainless steels cover grades with high chromium (20 to 27 %), high nickel (18 to 31 %) and high molybdenum (4 to 6 %) contents. Within this family, the 6%Mo high nitrogen grade S31266 was developed to combine the beneficial influence of chromium, tungsten, molybdenum and nitrogen on its mechanical and corrosion properties. Due to 22 % nickel, 24 % chromium and 0.4 % nitrogen additions, this alloy exhibits a very stable microstructure, being less prone to intermetallic phase precipitation than the other highly alloyed super-austenitic stainless steels.
This paper deals with the corrosion resistance of S31266 in artificial geothermal water with moderate salinity and low pH. Long-term static exposures and electrochemical tests were conducted at various temperatures to evaluate the pitting, crevice and stress corrosion cracking resistance of this material.
The results show that S31266 is resistant up to 220 °C. As a consequence, it can be a good candidate material for geothermal applications involving a highly corrosive environment, especially salinity and low pH.
Diese Aufgabensammlung liefert eine hilfreiche Ergänzung des Lehrbuches “Thermische Trennverfahren”, in dem Lösungsansätze aus der industriellen Praxis gut hergeleitet dargestellt sind. Eine Nutzung ohne Lehrbuch ist jedoch nicht empfehlenswert, da sich in diesem Fall die Komplexität der Grundlagen nicht verständlich erschließt.
Abschließend kann diesem Buch attestiert werden, dass es seinem Ansinnen, eine wertvolle Hilfe für alle zu liefern, die im Beruf besser Englisch sprechen wollen, auf eine angenehme Art und Weise gerecht wird. Dabei ist seine Nutzbarkeit nicht nur auf Labormitarbeiter beschränkt. Es ist auch allgemein ein sehr hilfreiches Nachschlagewerk für die alltägliche Anwendung der englischen Sprache.
Finally, this book fulfills its intension of facilitating the materials selection regarding current technical and normative aspects for all users, recyclers, test personnel and byers of Cu-materials in all kinds of applications. The well-structured data provide a reliable help for making decisions when applying or using Cu-alloys within the daily business. It shall not be missed in their book-shelfs.