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3d C/C Processing with High Gas Pressure

Published online by Cambridge University Press:  15 February 2011

S. E. Hsu ,
C. I. Chen  and
S. T. Chou
S. E. Hsu
Affiliation:
Materials Research and Development Center, CSIST, Lungtan,Taiwan 32526 Republic of China
C. I. Chen
Affiliation:
Materials Research and Development Center, CSIST, Lungtan,Taiwan 32526 Republic of China
S. T. Chou
Affiliation:
Materials Research and Development Center, CSIST, Lungtan,Taiwan 32526 Republic of China
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Abstract

Carbon/Carbon composite is densified by Hipping infiltrated pitch. The pore size in matrix decreased as processing pressure increases. The porosity decreasing rate is defined as (Vi−Vi+ 1)/Vi, and is proportional to the applied gas pressure, where Vi and Vi+1 are the pore volume before and after hipping respectively. The bonding strength also increases with the applied gas pressure and with densification cycle. The density of a 67% porosity fiber preform can reach up to 1.9 g/cm3 in less than 6 hipping cycles with maximum gas pressure of 103 Mpa.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 251: Symposium S – Pressure Effects on Materials Processing and Design , 1991 , 161
Copyright
Copyright © Materials Research Society 1992

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References

REFERENCES

1. Hsu, S.E. and Chen, C.I.,“Superalloys, Supercomposites and Superceramics”(eds., Tien, J.K. and Caulfield, T..), Academic Press, San Diego, pp. 721744. (1989)CrossRefGoogle Scholar
2. McAllister, L.E., and Lachman, W.L., “Fabrication of Composites” (eds., Kelly, A. and Mileiko, S.T..), Elsevier Science Pub.B.V., pp.109175, (1983).Google Scholar
3. Fitzer, E., Huttner, W. and Manocha, L.M., carbon, volo.18, pp.291295, (1980)Google Scholar
4. Cook, J. and Gordon, J.E.,Proc.Roy.Soc. 282A, 508.(1964)Google Scholar
5. Terwiesch, H., Doctorate Thesis, University Karlsruhe, p140 (1972).Google Scholar