Corrosion Science and Technology

The Corrosion Science Society of Korea (한국부식방식학회)
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Corrosion Behavior of the parts of Carbon Steel Bolted GECM(Graphite Epoxy Composite Material)/Al plates

탄소강 볼트 체결된 GECM(Graphite Epoxy Composite Material)/Al 판재의 구성 부재의 부식 거동

  • Kim, Youngsik (Materials Research Center for Energy and Green Technology, School of Advanced Materials Engineering, Andong National University) ;
  • Park, Sujin (Materials Research Center for Energy and Green Technology, School of Advanced Materials Engineering, Andong National University) ;
  • Yoo, Youngran (POMIA (Pohang Institute of Metal Industry Advancement))
  • 김영식 (국립안동대학교 신소재공학부 청정에너지소재기술연구센터) ;
  • 박수진 (국립안동대학교 신소재공학부 청정에너지소재기술연구센터) ;
  • 유영란 ((재)포항금속소재산업진흥원 부식방식연구실)
  • Received : 2012.10.23
  • Accepted : 2012.12.06
  • Published : 2012.12.31
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Abstract

This work focused on corrosion of carbon steel bolted GECM/Al parts in tap water and NaCl solutions. In tap water and NaCl solutions, open circuit potential of GECM and its potentials in a series of carbon steel bolt>Ti>Al became active. Regardless of test materials, open circuit potentials in tap water were noble, and increasing NaCl concentration, its potentials became active. Immersion test of single specimen showed that no corrosion occur in Ti and GECM. In tap water, carbon steel bolt didn't show red corrosion product and in chloride solutions, corrosion rate in 1% NaCl solution was greater than its rate in 3.5% NaCl solution and red corrosion product in 1% NaCl solution was earlier observed than that in 3.5% NaCl solution. It seems that this behavior would be related to zinc-coatings on the surface of carbon stee l bolt. On the other hand, aluminium was corroded in tap water and chloride solutions. Corrosion of aluminium in tap water was due to the presence of chloride ion in tap water by sterilizing process.

Keywords

References

  1. Y. R. Yoo, Y. I. Son, G. T. Shim, Y. H. Kwon, and Y. S. Kim, Corro. Sci. Tech., 8, 27 (2009).
  2. D. Lee, Mechanics and Processing of Composite Materials, Seongandang (1993).
  3. T. J. Rcinhart, Composites ASM International, p. 683m Ohio (1987).
  4. H. V. Gerlach, Composite Motor Cases of Tactical Rockets, AIAA-88-3327.
  5. A. K. Munjal, Use of Fiber-Reinforced Composites in Rocket Motor Industry, p. 1, SAMPE Quarterly, January (1986).
  6. D. M. Aylor and J. N. Murray, The Effect of a Seawater Environment on the Galvanic Corrosion Behavior of Graphite/ Epoxy Composites Coupled to Metals, CDNSWCSME- 92-32, Carderock Division, Naval Surface Warfare Center, Bethesda, MD (1992).
  7. G. Mantong and X. Changgan, Contact corrosion between carbon fiber reinforced composite materials and highstrength metals, NAIC-ID(RS)T-0413-95, National Air Intelligence Center(China) (1995).
  8. S. D. Thompson, B. L. White, and J. A. Snide, Accelrated Corrosion Testing of Graphite/Epoxy Composites and Aluminum Alloy Mechanically - Fastened Joints, AFWALTR- 84-3115 (1985).
  9. D. M. Aylor and J. N. Murray, The Effect of a Seawater Environment on the Galvanic Corrosion Behavior of Graphite/Epoxy Composites Coupled to Metals, CDNSWCSME- 91/32, AD-A256 072 (1992).
  10. F. Bellucci, A. Di Martino, and C. Liberti, J. Appl. Electro. Chem., 16, 15 (1986). https://doi.org/10.1007/BF01015979
  11. F. Lu, Q. P. Zhong, and C. X. Cao, Acta Metall. Sin., 16, 41 (2003).
  12. F. Lu, X. Zhang, Z. Tang, Q. Zhong, and C. Cao, Mater. Process, 4, 16 (2004).
  13. F. Bellucci, Corrosion, 47, 808 (1991). https://doi.org/10.5006/1.3585192
  14. F. Bellucci, Corrosion, 48, 281 (1992). https://doi.org/10.5006/1.3315934
  15. Y. S. Kim, H. K. Lim, Y. I. Sohn, Y. R. Yoo, and H. Y. Chang, Corros. Sci. Tech., 9, 39 (2010).

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  1. Galvanic Corrosion Behavior between Carbon Steel Bolted GECM(Graphite Epoxy Composite Material)/Al plates vol.12, pp.1, 2013, https://doi.org/10.14773/cst.2013.12.1.012