Pamula E, Rouxhet P G. Bulk and surface chemical functio-nalities of type Ⅲ PAN-based carbon fiber [J]. Carbon, 2003, 41:1905-1915.
[3]
Choi M H, Jeon B H, Chung I J. The effect of coupling agent on electrical and mechanical properties of carbon fiber/phenolic resin composites [J]. Polymer, 2000,41:3243-3252.
[4]
Severini F,Formaro L,Pegararo M,et al. Chemical modifica-tion of carbon fiber surface [J]. Carbon, 2002,40:735-741.
[5]
Bismarck A, Kumru M E, Springer J, et al. Surface proper-ties of PAN-based carbon fibers tuned by anodic oxidation in different alkaline electrolyte systems [J]. Applied Surface Science, 1999, 143: 45-55.
[6]
Akihiko Fukunaga, Shigetomo Ueda. Anodic surface oxida- tion for pitch-based carbon fiber and the interfacial bond strengths in epoxy matrices [J]. Composites Science and Technology, 2000,60:249-254.
[7]
Waseem S F, Gardner S D, He G, et al. Adhesion and surface analysis of carbon fibers electrochemically oxidation in aqueous potassium nitrate [J]. Journal of Materials Science, 1998, 33: 3151-3162.
[8]
Lee J R, Kim M H, Park S J. Surface modification of carbon fibers by anodic oxidation and its effect on adhesion [J]. Key Engineering Materials, 2000, 183: 1105-1110.
[9]
Park J, Park B J. Electrochemically modified PAN carbon fibers and interfacial adhesion in epoxy-resin composite [J]. Journal of Materials Science Letters, 1999, 18:47-49.
[10]
Alexander M R, Jones F R. Effect of electrolytic oxidation on the surface chemistry of type A carbon fibersⅠ: X-ray photoelectron spectroscopy [J]. Carbon, 1994, 32(5): 785-794.
