Centrifugal Deairing of Concentrated Ceramic Slurries

Although there are many investigations in the field of bubble dynamics in various scientific fields, this subject has never been fundamentally studied in the field of ceramic slurries. In this work, a mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal fie...

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Published in	Journal of the American Ceramic Society Vol. 92; no. 12; pp. 2861 - 2869
Main Authors	Maleksaeedi, Saeed, Paydar, Mohammad Hossein, Ma, Jan
Format	Journal Article
Language	English
Published	Malden, USA Blackwell Publishing Inc 01.12.2009 Wiley Subscription Services, Inc
Subjects	Bubbles Categories Centrifugal casting Ceramics Fluid flow Law Mathematical models Mechanical properties Slurries Slurry reactors Solids
Online Access	Get full text
ISSN	0002-7820 1551-2916
DOI	10.1111/j.1551-2916.2009.03302.x

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Abstract	Although there are many investigations in the field of bubble dynamics in various scientific fields, this subject has never been fundamentally studied in the field of ceramic slurries. In this work, a mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal field was modeled and formulated. Bubbles were divided into intra‐agglomerate and interagglomerate/free categories, and the dynamics were predicted by Stokes' law, which has been proven to be applicable for small bubbles. According to the theory of centrifugal deairing and available formulations for centrifugal casting, the behavior of bubbles in mono‐dispersed slurries with various solid contents was evaluated and the change in the slurry property during centrifugation was determined. Finally, it was revealed that the bubbles in ceramic slurries with sizes above 20 μm can be effectively eliminated by centrifugal deairing without a significant change in the slurry properties and material loss.
AbstractList	A mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal field was modelled and formulated. Bubbles were divided into intra-agglomerate and interagglomerate/free categories, and the dynamics were predicted by Stokes' law, which is applicable for small bubbles. According to the theory of centrifugal de-airing and available formulations for centrifugal casting, the behaviour of bubbles in mono-dispersed slurries with various solids content was evaluated and the change in the slurry properties during centrifugation was determined. It was revealed that the bubbles in ceramic slurries with sizes > 20 micron can be effectively eliminated by centrifugal de-airing without a significant change in the slurry properties and material loss. Although there are many investigations in the field of bubble dynamics in various scientific fields, this subject has never been fundamentally studied in the field of ceramic slurries. In this work, a mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal field was modeled and formulated. Bubbles were divided into intra‐agglomerate and interagglomerate/free categories, and the dynamics were predicted by Stokes' law, which has been proven to be applicable for small bubbles. According to the theory of centrifugal deairing and available formulations for centrifugal casting, the behavior of bubbles in mono‐dispersed slurries with various solid contents was evaluated and the change in the slurry property during centrifugation was determined. Finally, it was revealed that the bubbles in ceramic slurries with sizes above 20 μm can be effectively eliminated by centrifugal deairing without a significant change in the slurry properties and material loss. Although there are many investigations in the field of bubble dynamics in various scientific fields, this subject has never been fundamentally studied in the field of ceramic slurries. In this work, a mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal field was modeled and formulated. Bubbles were divided into intra-agglomerate and interagglomerate/free categories, and the dynamics were predicted by Stokes' law, which has been proven to be applicable for small bubbles. According to the theory of centrifugal deairing and available formulations for centrifugal casting, the behavior of bubbles in mono-dispersed slurries with various solid contents was evaluated and the change in the slurry property during centrifugation was determined. Finally, it was revealed that the bubbles in ceramic slurries with sizes above 20 ...m can be effectively eliminated by centrifugal deairing without a significant change in the slurry properties and material loss. (ProQuest: ... denotes formulae/symbols omitted.)
Author	Paydar, Mohammad Hossein Ma, Jan Maleksaeedi, Saeed
Author_xml	– sequence: 1 givenname: Saeed surname: Maleksaeedi fullname: Maleksaeedi, Saeed email: saeedmaleksaeedi@gmail.com organization: Materials Science and Engineering Department, School of Engineering, Shiraz University, Shiraz, Iran – sequence: 2 givenname: Mohammad Hossein surname: Paydar fullname: Paydar, Mohammad Hossein organization: Materials Science and Engineering Department, School of Engineering, Shiraz University, Shiraz, Iran – sequence: 3 givenname: Jan surname: Ma fullname: Ma, Jan organization: School of Materials Science and Engineering, Nanyang Technological University, Singapore, Singapore
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Snippet	Although there are many investigations in the field of bubble dynamics in various scientific fields, this subject has never been fundamentally studied in the... A mechanism for bubble formation was proposed, and the elimination of bubbles under a centrifugal field was modelled and formulated. Bubbles were divided into...
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SubjectTerms	Bubbles Categories Centrifugal casting Ceramics Fluid flow Law Mathematical models Mechanical properties Slurries Slurry reactors Solids
Title	Centrifugal Deairing of Concentrated Ceramic Slurries
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