Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres

Stefan Tichy; Philip Pucher; Bernd Prillhofer; Stefan Wibner; Helmut Antrekowitsch

Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres

Stefan Tichy
, Philip Pucher
, Bernd Prillhofer
, Stefan Wibner
, Helmut Antrekowitsch

Lehrstuhl für Nichteisenmetallurgie (520)

AMAG Austria Metall AG

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in Konferenzband

Abstract

In casthouses, water vapor has long been considered a source of high hydrogen contents in aluminum melts. Moisture levels are usually highest in melting and holding furnaces, where H2O contents of up to 18 vol% occur due to the combustion of natural gas with air. In the case of oxyfuel burners, contents of even more than 60 vol% are theoretically possible. To avoid defects such as annealing bubbles or grain porosity in the subsequent production steps, the absorbed hydrogen must be reduced to a minimum by degassing treatments. To gain a better understanding of the interaction between liquid aluminum and water vapor, the hydrogen absorption of aluminum-magnesium melts under atmospheres with varying water vapor contents of 0–90 vol% at around 700 °C (1300 °F) is investigated in this work. Furthermore, the influence of H2O on the oxidation behavior is also examined.

Originalsprache	Englisch
Titel	Light Metals 2023
Herausgeber (Verlag)	Springer Cham
Kapitel	7
Seiten	920-927
Seitenumfang	8
ISBN (elektronisch)	978-3-031-22532-1
ISBN (Print)	978-3-031-22531-4, 978-3-031-22534-5
Publikationsstatus	Veröffentlicht - 8 Feb. 2023

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

SDG 9 – Industrie, Innovation und Infrastruktur
SDG 13 – Klimaschutzmaßnahmen

Andere Dateien und Links

https://link.springer.com/chapter/10.1007/978-3-031-22532-1_122

Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres
Tichy, S. (Redner)
21 März 2023
Aktivität: Gespräch oder Vortrag › Mündliche Präsentation
TMS 2023 Annual Meeting & Exhibition
Tichy, S. (Gastredner/-in), Samberger, S. (Gastredner/-in), Weidinger, A. (Gastredner/-in), Willenshofer, P. (Gastredner/-in), Haslinger, G. (Gastredner/-in), Steinlechner, S. (Gastredner/-in) & Antrekowitsch, J. (Gastredner/-in)
19 März 2023 → 23 März 2023
Aktivität: Teilnahme an oder Organisation einer Veranstaltung › Konferenzteilnahme

Dieses zitieren

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title = "Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres",

abstract = "In casthouses, water vapor has long been considered a source of high hydrogen contents in aluminum melts. Moisture levels are usually highest in melting and holding furnaces, where H2O contents of up to 18 vol\% occur due to the combustion of natural gas with air. In the case of oxyfuel burners, contents of even more than 60 vol\% are theoretically possible. To avoid defects such as annealing bubbles or grain porosity in the subsequent production steps, the absorbed hydrogen must be reduced to a minimum by degassing treatments. To gain a better understanding of the interaction between liquid aluminum and water vapor, the hydrogen absorption of aluminum-magnesium melts under atmospheres with varying water vapor contents of 0–90 vol\% at around 700 °C (1300 °F) is investigated in this work. Furthermore, the influence of H2O on the oxidation behavior is also examined.",

keywords = "Aluminum, Hydrogen, Water vapor, Hycal, Oxidation",

author = "Stefan Tichy and Philip Pucher and Bernd Prillhofer and Stefan Wibner and Helmut Antrekowitsch",

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TY - GEN

T1 - Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres

AU - Tichy, Stefan

AU - Pucher, Philip

AU - Prillhofer, Bernd

AU - Wibner, Stefan

AU - Antrekowitsch, Helmut

PY - 2023/2/8

Y1 - 2023/2/8

N2 - In casthouses, water vapor has long been considered a source of high hydrogen contents in aluminum melts. Moisture levels are usually highest in melting and holding furnaces, where H2O contents of up to 18 vol% occur due to the combustion of natural gas with air. In the case of oxyfuel burners, contents of even more than 60 vol% are theoretically possible. To avoid defects such as annealing bubbles or grain porosity in the subsequent production steps, the absorbed hydrogen must be reduced to a minimum by degassing treatments. To gain a better understanding of the interaction between liquid aluminum and water vapor, the hydrogen absorption of aluminum-magnesium melts under atmospheres with varying water vapor contents of 0–90 vol% at around 700 °C (1300 °F) is investigated in this work. Furthermore, the influence of H2O on the oxidation behavior is also examined.

AB - In casthouses, water vapor has long been considered a source of high hydrogen contents in aluminum melts. Moisture levels are usually highest in melting and holding furnaces, where H2O contents of up to 18 vol% occur due to the combustion of natural gas with air. In the case of oxyfuel burners, contents of even more than 60 vol% are theoretically possible. To avoid defects such as annealing bubbles or grain porosity in the subsequent production steps, the absorbed hydrogen must be reduced to a minimum by degassing treatments. To gain a better understanding of the interaction between liquid aluminum and water vapor, the hydrogen absorption of aluminum-magnesium melts under atmospheres with varying water vapor contents of 0–90 vol% at around 700 °C (1300 °F) is investigated in this work. Furthermore, the influence of H2O on the oxidation behavior is also examined.

KW - Aluminum

KW - Hydrogen

KW - Water vapor

KW - Hycal

KW - Oxidation

UR - https://link.springer.com/chapter/10.1007/978-3-031-22532-1_122

M3 - Conference contribution

SN - 978-3-031-22531-4

SN - 978-3-031-22534-5

SP - 920

EP - 927

BT - Light Metals 2023

PB - Springer Cham

ER -

Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres

Abstract

UN SDGs

Andere Dateien und Links

Aktivitäten

Hydrogen Absorption of Aluminum-Magnesium Melts from Humid Atmospheres

TMS 2023 Annual Meeting & Exhibition

Dieses zitieren