Doctoral Dissertations
Innovative refractories for preventing nozzle clogging in continuously cast aluminum-killed steels
Abstract
"Nozzle clogging in submerged entry and tundish nozzles adversely impacts the productivity and quality of continuously cast aluminum-killed steels. The objective of the research conducted was to develop innovative refractories that are less prone to accretion formation than current materials"--Abstract, page iv.
Department(s)
Materials Science and Engineering
Degree Name
Ph. D. in Metallurgical Engineering
Publisher
University of Missouri--Rolla
Publication Date
Fall 2004
Journal article titles appearing in thesis/dissertation
- Effect of nozzle permeability on clogging
- Interaction of aluminum-killed ULC steel with carbide and nitride nozzle materials
- Interaction of alumina inclusions in steel with calcium-containing materials
- Casting simulation of calcium titanate and calcium zirconate nozzles for continuous casting of aluminum killed steels
Pagination
xii, 135 pages
Note about bibliography
Includes bibliographical references.
Rights
© 2004 Robert Bruce Tuttle, All rights reserved.
Document Type
Dissertation - Citation
File Type
text
Language
English
Subject Headings
Nozzles
Steel -- Metallurgy
Refractory materials
Thesis Number
T 8636
Print OCLC #
61853165
Link to Catalog Record
Full-text not available: Request this publication directly from Missouri S&T Library or contact your local library.
http://merlin.lib.umsystem.edu/record=b5369382~S5Recommended Citation
Tuttle, Robert B., "Innovative refractories for preventing nozzle clogging in continuously cast aluminum-killed steels" (2004). Doctoral Dissertations. 1553.
https://scholarsmine.mst.edu/doctoral_dissertations/1553
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