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http://dx.doi.org/10.3740/MRSK.2004.14.1.059

Investigation of Manufacturing Parameters for Non-fibrous Ceramic Brake Pads using Taguchi Method  

Yeo Jeong-Gu (한양대학교 세라믹공학과)
Choi Sung-Churl (한양대학교 세라믹공학과)
Publication Information
Korean Journal of Materials Research / v.14, no.1, 2004 , pp. 59-66 More about this Journal
Abstract
In the present study, ceramic brake pads without fiber phases were manufactured by the low temperature heat treatment below$ 700 ^{\circ}C$. The manufacturing parameters of ceramic brake pads and those levels were investigated by the analysis results of signal-to-noise ratios, ANOVA based upon the Taguchi method. The ceramic brake pads prepared in the Mg experiment had a friction coefficient of 0.30~0.55 very close to the target coefficient (0.35~0.45) of commercial brake pads utilized in the automobiles. The frictional properties of ceramic brake pads could be stabilized with the adjustment of amounts of lubricating additives. The optimum preparation conditions as well as batch formulations for the fabrication of non-fibrous ceramic brake pads were finally determined using Taguchi method in this study.
Keywords
Ceramic brake; Taguchi method; Friction; Wear;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 J. Y. Kim, D. S. Lim, S. R. Lee, E. S. Byun and G. H. Lee, J. Kor. Ceram. Soc.(in Kor.), 32(11), 1315 (1995)   과학기술학회마을
2 J. C. Sikra, J. E. Krysiak, P.R. Eklund, and R. Ruh, Am. Ceram. Soc. Bull., 53(8), 581 (1974)
3 T. Jimbo and S. Hironaka, J. Ceram. Soc. Japan, 104(7), 620 (1996)   DOI
4 M. Ohgoshi, M. Fujita, and S. Hironaka, J. Ceram. Soc. Japan, 104(7), 659 (1996)   DOI
5 H. J. Kim and Y. G. Kweon, J. Kor. Inst. Met. Mater.(in Kor.), 35(3), 374 (1997)
6 J. S. Tsai, J. Mater. Sci., 30(8), 2019 (1995)   DOI
7 W. D. Yang and K. M. Hung, J. Mater. Sci., 37(7), 1337 (2002)   DOI   ScienceOn
8 S. K. Rhee, Wear, 28(2), 277 (1974)   DOI   ScienceOn
9 M. Eriksson, F. Bergman, and S. Jacobson, Wear, 232, 163 (1999)   DOI   ScienceOn
10 W. Y. Fowlkes and C. M. Creveling, Engineering Methods for Robust Product Design: Using Taguchi Methods in Technology and Product Development, Prentice Hall, NY, U.S.A. (1995)
11 M. K. Stanford and V. K. Jain, Wear, 251(1-12), 990 (2001)   DOI   ScienceOn
12 B. K. Friley, B. E. McNeese, and J. T. Trainor, SAE Tech. Series, #911951
13 K. Shibata, A. Gato, S. Yoshida, Y. Azuma, and K. Nakamura, SAE Tech. Series, #930806
14 M. B. James and J. M. Newton, Powder Technology, 34(1), 29 (1983)   DOI   ScienceOn
15 W. D. Kingery, H. K. Bowen and D. R. Uhlmann, Introduction to Ceramics, 2nd ed., Wiley, NY, U.S.A. (1976)
16 M. Eriksson and S. Jacobson, Tribology International, 33, 817 (2000)   DOI   ScienceOn
17 Y. Lu, C. F. Tang and M. A. Wright, J. Appl. Polymer Sci., 84, 2498 (2002)   DOI   ScienceOn
18 K. C. Ludema, Friction, Wear, Lubrication: A Textbook in Tribology, CRC Press, FL, U.S.A. (1996)
19 M. Iwasa, Y Toibana, S. Yoshimura and E. Kobayashi, Yogyo-Kyokai-Shi, 93(2), 73 (1985)   DOI
20 V. M. Malhotra, P. S. Valimbe and M. A. Wright, Fuel, 81, 235 (2002)   DOI   ScienceOn
21 H. E. Sliney, Tribology International, 15(5), 303 (1982)   DOI   ScienceOn
22 M. Bai and Q. Xue, Tribology International, 30(4), 261 (1997)   DOI   ScienceOn