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Optimization of Bundle Infiltration in the Forced Chemical Vapor Infiltration (FCVI) Process

Published online by Cambridge University Press:  15 February 2011

W.M. Matlin ,
D.P. Stinton ,
T.M. Besmann  and
P.K. Liaw
W.M. Matlin
Affiliation:
University of Tennessee, Knoxville, TN 37966-2200
D.P. Stinton
Affiliation:
Oak Ridge National Laboratory, Oak Ridge, TN 37996-2200
T.M. Besmann
Affiliation:
Oak Ridge National Laboratory, Oak Ridge, TN 37996-2200
P.K. Liaw
Affiliation:
University of Tennessee, Knoxville, TN 37966-2200
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Abstract

A two-step forced-flow, thermal-gradient, chemical vapor infiltration process (FCVI) was proposed to reduced processing time while maintaining uniformly high densities. GTCVI, a finite-volume computer code developed specifically for the FCVI process was used to model thermal gradient effects on processing time and density. An optimum thermal gradient was determined and used to process material with uniformly infiltrated bundles.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 365: Symposium M – Ceramic Matrix Composites–Advanced High-Temperature Structural Materials , 1994 , 309
Copyright
Copyright © Materials Research Society 1995

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References

1. Stinton, D.P., Besmann, T.M., and Lowden, R.L., J. Am. Ceram. Soc. 67 (2), 350355, (1988).Google Scholar
2. Sheldon, B.W. and Chang, H.C. in Silicon-Based Structural Ceramics, Ceramic Transactions 42, edited by. Sheldon, B. W., Danforth, S. C., American Ceramic Society, Westerville, Ohio (1994).Google Scholar
3. Chang, H.C., Morse, T.F., and Sheldon, B.W., J. of Materials Processing & Manufacturing 2, 437455, (1994).Google Scholar
4. Starr, T. L. and Smith, A.W., Oak Ridge National Laboratory Report No. ORNL/sub/85-55901/03, (1992).Google Scholar
5. Lowden, R. Caputo, A. Stinton, D. Besmann, T. Morris, M. “Effect of Infiltration Conditions on the Properties of SiC/Nicalon Composites”, Oak Ridge National Laboratory Report, No. ORNL/TM-10403, (1987).Google Scholar
6. Starr, T. L. and Smith, A. W., in Chemical Vapor Deposition of Refractory Metals and Alloys, Besmann, T. M. and Gallois, B. M., Eds. (Materials Research Society, Pittsburg, pp. 5560, (1990).Google Scholar
7. Starr, T. Smith, A. Besmann, T. McLaughlin, J. and Sheldon, B. in High Temperature Matrix Composites, edited by Naslain, R., Lamon, J., and Doumeingts, D. (Woodhead Pub. Ltd., Cambridge, pp. 231240, (1993).Google Scholar