Investigation of Alumina Wetting by Fe-Ti, Fe-P and Fe-Ti-P Alloys

The wetting of alumina substrates by Fe-Ti, Fe-P and Fe-Ti-P alloys has been investigated using sessile drop experiments conducted under an inert gas atmosphere in the temperature range of 1550 to 1620°C. The surface and interfacial structures have been explored by scanning electron microscopy and e...

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Published in:	Journal of adhesion science and technology Vol. 26; no. 8-9; pp. 1141 - 1156
Main Authors:	Karasangabo, Augustin, Bernhard, Christian
Format:	Journal Article
Language:	English
Published:	Utrecht Routledge 01.05.2012 Taylor & Francis Ltd
Subjects:	Adhesion Agglomeration Alloy steels Alloy systems Alloying additive Alloying elements Alloys Alumina Aluminum oxide Binary systems Ceramics clogging Contact angle Continuous casting drop shape analysis Energy dispersive X ray spectroscopy Ferrous alloys Iron and steel making Melts non-metallic inclusions Nozzles Partial pressure Particle physics Rare gases sessile drop Substrates Titanium base alloys Wettability Wetting
ISSN:	0169-4243, 1568-5616
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Abstract	The wetting of alumina substrates by Fe-Ti, Fe-P and Fe-Ti-P alloys has been investigated using sessile drop experiments conducted under an inert gas atmosphere in the temperature range of 1550 to 1620°C. The surface and interfacial structures have been explored by scanning electron microscopy and energy dispersive X-ray spectroscopy. Substantial additions of titanium are known to induce steel melts to wet alumina due to the formation of a Ti-rich reaction product at the alloy/ceramic interface, but the present work has shown that even low Ti concentrations can induce a reactive wetting process leading to an improvement of the wettability of alumina by Fe alloys. The contact angle of molten steel containing phosphorus on alumina decreased with increasing P content. The improvement of the wetting behaviour in this system was attributed solely to the adsorption of P onto the surface of the Fe melt. The addition of P as a ternary alloying element to the system Fe-Ti proved to be beneficial to the wetting behaviour. The measured contact angles were much lower than those in the binary systems Fe-Ti and Fe-P. This effect was related to the fact that P enhances the activity of Ti in the Fe melt. According to experimental observations, it turns out that the wettability of liquid Fe-based alloys, when an Al2O3 surface is present, is not only a property of the metal/oxide couple but is also dependent on the oxygen partial pressure, whereas temperature variations bring about a comparatively small effect. This work is of interest in understanding the phenomena pertaining to inclusion engineering and steel- refractory interactions, such as the clogging of submerged entry nozzles by agglomerated alumina particles during the continuous casting process.
AbstractList	The wetting of alumina substrates by Fe-Ti, Fe-P and Fe-Ti-P alloys has been investigated using sessile drop experiments conducted under an inert gas atmosphere in the temperature range of 1550 to 1620°C. The surface and interfacial structures have been explored by scanning electron microscopy and energy dispersive X-ray spectroscopy. Substantial additions of titanium are known to induce steel melts to wet alumina due to the formation of a Ti-rich reaction product at the alloy/ceramic interface, but the present work has shown that even low Ti concentrations can induce a reactive wetting process leading to an improvement of the wettability of alumina by Fe alloys. The contact angle of molten steel containing phosphorus on alumina decreased with increasing P content. The improvement of the wetting behaviour in this system was attributed solely to the adsorption of P onto the surface of the Fe melt. The addition of P as a ternary alloying element to the system Fe-Ti proved to be beneficial to the wetting behaviour. The measured contact angles were much lower than those in the binary systems Fe-Ti and Fe-P. This effect was related to the fact that P enhances the activity of Ti in the Fe melt. According to experimental observations, it turns out that the wettability of liquid Fe-based alloys, when an Al2O3 surface is present, is not only a property of the metal/oxide couple but is also dependent on the oxygen partial pressure, whereas temperature variations bring about a comparatively small effect. This work is of interest in understanding the phenomena pertaining to inclusion engineering and steel- refractory interactions, such as the clogging of submerged entry nozzles by agglomerated alumina particles during the continuous casting process.
Author	Karasangabo, Augustin Bernhard, Christian
Author_xml	– sequence: 1 givenname: Augustin surname: Karasangabo fullname: Karasangabo, Augustin email: augustin.karasangabo@unileoben.ac.at organization: Christian Doppler Laboratory for Metallurgical Fundamentals of Continuous Casting Processes, Chair of Metallurgy , University of Leoben – sequence: 2 givenname: Christian surname: Bernhard fullname: Bernhard, Christian organization: Christian Doppler Laboratory for Metallurgical Fundamentals of Continuous Casting Processes, Chair of Metallurgy , University of Leoben
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SubjectTerms	Adhesion Agglomeration Alloy steels Alloy systems Alloying additive Alloying elements Alloys Alumina Aluminum oxide Binary systems Ceramics clogging Contact angle Continuous casting drop shape analysis Energy dispersive X ray spectroscopy Ferrous alloys Iron and steel making Melts non-metallic inclusions Nozzles Partial pressure Particle physics Rare gases sessile drop Substrates Titanium base alloys Wettability Wetting
Title	Investigation of Alumina Wetting by Fe-Ti, Fe-P and Fe-Ti-P Alloys
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