New Application of Clay Filler for Carbon/Carbon Composites and Improvement of Filler Effect by Clay Size Reduction
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서지정보
ㆍ발행기관 : 한국탄소학회
ㆍ수록지정보 : Carbon Letters / 11권 / 4호
ㆍ저자명 : Euigyung Jeong, Jinhoon Kim , Young-Seak Lee
ㆍ저자명 : Euigyung Jeong, Jinhoon Kim , Young-Seak Lee
목차
1. Introduction2. Experimental
3. Results and Discussion
4. Conclusion
Acknowledgements
References
한국어 초록
To investigate new potential application of a clay material for C/C composites, illite added C/C composites were preparedwith various illite contents. The improvement of filler effect by illite size reduction was also investigated using wet ballmilling
by evaluating illite/phenolic resin infiltration using bulk density and porosity measurements, chemical structural
changes of the composites using XRD, and thermal oxidation stability in air of the composites using TGA. The size reduction
of illite resulted in narrower particle size distribution and improved illite infiltration into carbon preform. And the resultant C/
C composites prepared with illite had even more improved thermal oxidation stability in air, showing more increased IDTs up
to 100oC, compared to those of the C/C composites with pristine illite, due to the SiC formation through carbothermal
reduction between illite and carbon materials. The illite induced delay in oxidation of the illite-C/C composites was also
observed and the delayed oxidation behavior was attributed to the layered structure of illite, which improved illite/phenol resin
infiltration. Therefore, the potential use of illite as filler to improve oxidation stability of C/C composite can be promising.
And the size reduction of illite can improve its effect on the desired properties of illite-C/C composites even more.
영어 초록
To investigate new potential application of a clay material for C/C composites, illite added C/C composites were preparedwith various illite contents. The improvement of filler effect by illite size reduction was also investigated using wet ballmillingby evaluating illite/phenolic resin infiltration using bulk density and porosity measurements, chemical structuralchanges of the composites using XRD, and thermal oxidation stability in air of the composites using TGA. The size reductionof illite resulted in narrower particle size distribution and improved illite infiltration into carbon preform. And the resultant C/C composites prepared with illite had even more improved thermal oxidation stability in air, showing more increased IDTs upto 100oC, compared to those of the C/C composites with pristine illite, due to the SiC formation through carbothermalreduction between illite and carbon materials. The illite induced delay in oxidation of the illite-C/C composites was alsoobserved and the delayed oxidation behavior was attributed to the layered structure of illite, which improved illite/phenol resininfiltration. Therefore, the potential use of illite as filler to improve oxidation stability of C/C composite can be promising.And the size reduction of illite can improve its effect on the desired properties of illite-C/C composites even more.참고 자료
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