Effect of Surface Texturing on Friction Transition of C/C Composite Material
Author:
Affiliation:
1. Graduate School, Tokyo University of Science
2. Tokyo University of Science
Publisher
Japanese Society of Tribologists
Subject
Surfaces, Coatings and Films
Link
https://www.jstage.jst.go.jp/article/trol/11/2/11_426/_pdf
Reference20 articles.
1. [1] Kasem, H, Bonnamy, S., Berthier, Y., Dufrenoy, P. and Jacquemard, P. “Tribological, Physicochemical and Thermal Study of the Abrupt Friction Transition during Carbon/Carbon Composite Friction,” Wear, 267, 2009, 846-852.
2. [2] Yen, B. K. and Ishihara T., “An Investigation of Friction and Wear Mechanisms of Carbon-Carbon Composites in Nitrogen and Air at Elevated Temperatures,” Carbon, 34, 1996, 489-498.
3. [3] Chen, J. D. and Ju, C. P., “Friction and Wear of PAN/Pitch-, PAN/CVI- and Pitch/Resin/CVI- Based Carbon/Carbon Composites,” Wear, 174, 1994, 129-135.
4. [4] Chen, J. D., Chern Lin, J. H. and Ju, C. P., “Effect of Humidity on the Tribological Behavior of Carbon-Carbon Composite,” Wear, 193, 1996, 38-47.
5. [5] Kasem, H., Bonnamy, S., Rousseau, B., Estrade-Szwarckopf, H., Berthier, Y. and Jacquemard, P., “Interdependence between Wear Process, Size of Detached Particles and CO2 Production during Carbon/Carbon Composite Friction,” Wear, 263, 2007, 1220-1229.
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