Preparation and Characteristic of Carbon/Carbon Composites with Coal-tar and Petroleum Binder Pitches |
Yang, Jae-Yeon
(Korea Institute of Carbon Convergence Technology)
Park, Sang-Hee (R&D Center, GS Caltex Corporation) Park, Soo-Jin (Department of Chemistry, Inha University) Seo, Min-Kang (Korea Institute of Carbon Convergence Technology) |
1 | S. J. Park and M. K. Seo, The Effects of on the Oxidation Behavior of Carbon/Carbon Composites, Carbon, 39, 1299-1235 (2001). DOI ScienceOn |
2 | H. H. Kuo, J. H. Chern Lin, and C. P. Ju, Effect of Carbonization Rate on the Properties of a PAN/Phenolic-based Carbon/Carbon Composite, Carbon, 43, 229-239 (2005). DOI ScienceOn |
3 | B. Terwisch and E. Fitzer, Carbon-carbon Composites Unidirectionally Reinforced with Carbon and Graphite Fibers, Carbon, 10. 383-386 (1972). DOI ScienceOn |
4 | E. Fitzer, M. Heym, and K. Karlisch, Proc. 4th London Int. Conf. on Carbon and Graphite, September 23-27, London (1974). |
5 | L. M. Manocha, A. Warrier, S. Manocha, D. Sathiyamoorthy, and S. Banerjee, Thermophysical Properties of Densified Pitch based Carbon/Carbon Materials-I. Unidirectional Composites, Carbon, 44, 480-487 (2006). DOI ScienceOn |
6 | H. Li, H. J. Li, J. Lu, X. Zhang, and K. Li, Effects of Air Oxidation on Mesophase Pitch-based Carbon/Carbon Composites, Carbon, 49, 1416-1422 (2011). DOI ScienceOn |
7 | A. Benk, Utilisation of the Binders prepared from Coal Tar Pitch and Phenolic Resins for the Production metallurgical Quality Briquettes from Coke Breeze and the Study of their high Temperature Carbonization Behaviour, Fuel Process Technol., 91, 1152-1161 (2010). DOI ScienceOn |
8 | P. D. Matzinos, J. W. Patrick, and A. Walker, The Efficiency and Mechanism of Densification of 2-D C/C Composites by Coal-tar Pitch Impregnation, Carbon, 38, 1123-1128 (2000). DOI ScienceOn |
9 | L. M. Manocha, M. Patel, S. M. Manocha. C. Vix-Guterl, and P. Ehrburger, Carbon/Carbon Composites with Heat-treated Pitches I. Effect of Treatment in Air on the Physical Characteristics of Coal Tar Pitches and the Carbon Matrix derived Thereform, Carbon, 39, 663-671 (2001). DOI ScienceOn |
10 | S. J. Park, M. K. Seo, and J. R. Lee, Influence of Oxidation Inhibitor on Carbon-Carbon Composites : 5. Studies on Anti-oxidtaion Properties of the Composites, Polymer(Korea), 24, 237-244 (2000). |
11 | W. Kowbel, V. Chellapa, and J. C. Withers, Properties of C/C Composites Produced in One Low Cost Manufacturing Step, Carbon, 34, 819 (1996). DOI ScienceOn |
12 | H. J. Ko, C. U. Park, H. H. Cho, M. J. Yoo, M. S. Kim, and Y. S. Lim, Preparation of Coal Tar Pitch as Carbon Fibers Precursor from Coal Tar, Kor. J. Mater. Res., 23, 276-280 (2013). DOI ScienceOn |
13 | M. Akezuma, K. Okuzawa, K. Esumi, K. Meguro, and H. Honda, Physicochemical Properties of Quinoline-soluble and Quinoline-insoluble Mesophases, Carbon, 25, 517-522 (1987). DOI ScienceOn |
14 | K. J. Kim, D. H. Rui, K. H. Lim, J. I. Kim, I. C. Shin, Y. S. Lim, H. J. Joo, and K. Y. Cho, Manufacture of High Density Graphite Using Coal Tar Pitch, J. Kor. Ceram. Soc., 43, 839-845 (2006). DOI ScienceOn |
15 | J. H. Choi, G. D. Lee, J. Y. Kim, and Y. D. Park, Influence of Feedstocks and Carbonization Condition on Pitch Coke Preparation from various Coal Tars, J. Kor. Inst. Chem. Eng., 28, 586-593 (1990). |
16 | J. R. Kershaw and K. J. T. Black, Structural Characterization of Coal-Tar and Petroleumm Pitches, Energy Fuels, 7, 420-425 (1993). DOI ScienceOn |
17 | C. Yamaguchi, J. Mondori, A. Matsumoto, H. Honma, H. Kumagai, and Y. Sanada, Air-blowing Reactions of Pitch : I. Oxidation of Aromatic Hydrocarbons, Carbon, 33, 193-201 (1995). DOI ScienceOn |
18 | W. Zhang, T. Li, H. Liu, A. Dang, C. Hou, T. Zhao, and G. Li, Preparation and Carbonization Behavior of Cinnamaldehyde modified Coal Tar Pitch, J. Anal. Appl. Pyrol., 94, 63-67 (2012). DOI ScienceOn |
19 | J. Y. Jung, M. S. Park, M. I. Kim, and Y. S. Lee, Novel Reforming of pyrolized Fuel Oil by Electron Beam Radiation for Pitch Production, Carbon Letters, 15, 262-267 (2014). DOI ScienceOn |
20 | H. B. Shin, B. H. Lee, S. W. Hong, and B. S. Rhee, A Study on Co-carbonization Behavior of Coal Tar and Petroleum Pitch, Kor. J. Mater. Res., 6, 138-144 (1996). |
21 | K. Y. Cho and K. J. Kim, The Oxi-stabilization of Carbon Precursor Using Heat Treated Pitch, J. Kor. Ceram. Soc., 40, 985-990 (2003). DOI ScienceOn |
22 | A. Cristadoro, S. U. Kulkarni, W. A. Burgess, E. G. Cervo, H. J. Rader, K. Mullen, D. A. Bruce, and M. C. Thies, Structural Characterization of the Oligomeric Constituents of Petroleum Pitches, Carbon, 47, 2358-2370 (2009). DOI ScienceOn |
23 | Y. Martin, R. Garcia, R. A. Sole, and S. R. Moinelo, Structural Characterization of Coal Tar Pitches Obtained by Heat Treatment under Different Conditions, Energy Fuels, 10, 436-442 (1996). DOI ScienceOn |
24 | J. S. Hwang, H. I. Ryu, and S. J. Park, Separation of Precusor-Pitch for Carbon Application from petroleum Vacuum Residuum Using Supercritical Propane (), J. Kor. Inst. Chem. Eng., 34, 99-104 (1996). |
25 | I. S. Oh, J. I. Kim, Y. S. Nam, and H. J. Joo, Effects of the Presuure Carbonization on the Preparation Process of Carbon/Carbon Composites from Coal Tar Pitch, Kor. J. Mater. Res., 7, 397-402 (1997). |
26 | M. C. Kim, S. Y. Eom, S. K. Ryu, and D. D. Edie, Reformation of Naphtha Cracking Bottom Oil for the Preparation of Carbon Fiber Precursor Pitch, Kor. Chem. Eng. Res., 43, 745-750 (2005). |
27 | S. J. Park, M. S. Cho, and J. R. Lee, Influence of Oxidation Inhibitor on Carbon-Carbon Composites: 1. Degree of Graphitization and Mechanical Behavior, Polymer(Korea), 22, 972-978 (1998). |
28 | S. J. Park, M. K. Seo, and J. R. Lee, Influence of Oxidation Inhibitor on Carbon-Carbon Composites: 9. Studies on Impact Properties of the Composites, J. Korean. Soc. Compos. Mater., 16, 41-48 (2003). |
29 | G. Chollon, O. Siron, J. Takahashi, H. Yamauchi, K. Maeda, and K. Kosaka, Microstructure and Mechanical Properties of Coal Tar Pitch-based 2D-C/C Composites with a Filler Addition, Carbon, 39, 2065-2075 (2001). DOI ScienceOn |
30 | C. R. Choe, J. S. Jang, and B. I. Yoon, Carbonization Process of Carbon Fiber/Phenolic Resin Composites III. Mechanical Properties with Different Cure Pressure, J. Korean Soc. Compos. Mater., 4, 13-22 (1991). |
31 | J. I. Kim, I. S. Oh, and H. J. Joo, Mechanical Properties & Ablation Mechanism of SiC Coated Carbon/Carbon Compoistes by Pack-cementation Method, Carbon Science, 2, 27-36 (2001). |
32 | S. E. Yoo, M. K. Seo, B. S. Kim, and S. J. Park, Effect of on Mechanical Interfacial Behavior and Anti-oxidation of Carbon Fiber-reinforced Composites, J. Ind. Eng. Chem., In Press, Corrected Proof. |
33 | S. J. Park, M. S. Cho, and J. R. Lee, Studies on the Surface Free Energy of Carbon-Carbon Composites : Effect of Filler Addition on the ILSS of Composites, J. Colloid Interface Sci., 226, 60-64 (2000). DOI ScienceOn |
34 | E. Casal, M. Granda, J. Bermejo, J. Bonhomme, and R. Menendez, Influence of Porosity on the Apparent Interlaminar Shear Strength of Pitch-bqased unidirectional C-C Composites, Carbon, 39, 73-82 (2001). DOI ScienceOn |