Development of advanced fibrous monoliths - final report for project of 1998-2000. Metadata
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Title
- Main Title Development of advanced fibrous monoliths - final report for project of 1998-2000.
Creator
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Author: Goretta, K. C.Creator Type: Personal
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Author: Singh, D.Creator Type: Personal
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Author: Cruse, T. A.Creator Type: Personal
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Author: Ellingson, W. A.Creator Type: Personal
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Author: Picciolo, J. J.Creator Type: Personal
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Author: Polzin, B. J.Creator Type: Personal
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Author: Spohnholtz, T. W.Creator Type: Personal
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Author: Zok, F. W.Creator Type: Personal
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Author: McNulty, J. C.Creator Type: Personal
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Author: He, M.Creator Type: Personal
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Author: Kriven, W. M.Creator Type: Personal
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Author: Lee, S. J.Creator Type: Personal
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Author: Kim, D. K.Creator Type: Personal
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Author: Hilmas, G.Creator Type: Personal
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Author: Mercer, A. J.Creator Type: Personal
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Author: Begley, M. R.Creator Type: Personal
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Author: de Arellano-Lopez, A. R.Creator Type: Personal
Contributor
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Sponsor: United States. Department of Energy.Contributor Type: OrganizationContributor Info: US Department of Energy (United States)
Publisher
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Name: Argonne National LaboratoryPlace of Publication: IllinoisAdditional Info: Argonne National Lab., IL (United States)
Date
- Creation: 2001-05-10
Language
- English
Description
- Content Description: Efforts to develop fibrous ceramic monoliths for primarily structural applications are described. Fibrous monoliths (FMs) are relatively insensitive to flaws and can exhibit graceful failure and large work-of-fracture values. They can be inexpensively produced in a wide variety of forms by conventional ceramic processing methods such as extrusion. The FM project that is the subject of this report involved investigations to (1) develop FMs that can be pressureless sintered rather than hot pressed, (2) develop technologies to continuously extrude FM filaments and inexpensively fabricate FM components, (3) evaluate the performance of commercial and new, prototype FMs, (4) develop micromechanical models to guide the design of new FMs and predict their properties, and (5) forge collaborations with industry to produce useful parts.
- Physical Description: 191 pages
Subject
- Keyword: Fibers
- Keyword: Extrusion
- STI Subject Categories: 36 Materials Science
- Keyword: Mathematical Models
- Keyword: Composite Materials
- Keyword: Performance
- Keyword: Defects
- Keyword: Fabrication
- Keyword: Ceramics
Source
- Other Information: PBD: 10 May 2001
Collection
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Name: Office of Scientific & Technical Information Technical ReportsCode: OSTI
Institution
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Name: UNT Libraries Government Documents DepartmentCode: UNTGD
Resource Type
- Report
Format
- Text
Identifier
- Report No.: ANL-01/04
- Grant Number: W-31-109-ENG-38
- DOI: 10.2172/782580
- Office of Scientific & Technical Information Report Number: 782580
- Archival Resource Key: ark:/67531/metadc723837