Effect of Surface Roughness on Improved Lubricity under an Ironing Condition Using a Synthetic Mica-Organic Intercalation Compound
Author:
Affiliation:
1. Central Research Laboratories, Nihon Parkerizing Co., Ltd.
2. Department of Mechanical Systems Engineering, Gifu University
Publisher
Japanese Society of Tribologists
Subject
Surfaces, Coatings and Films
Link
https://www.jstage.jst.go.jp/article/trol/12/4/12_193/_pdf
Reference27 articles.
1. [1] Kawamura, M., “Solid Lubricants –Bonded Solid Film Lubricants–,” Journal of the Surface Finishing Society of Japan, 65, 12, 2014, 591-594 (in Japanese).
2. [2] Wang, Z. G., Komiyama, S., Yoshikawa, Y., Suzuki T. and Osakada, K., “Evaluation of Lubricants without Zinc Phosphate Precoat in Multi-Stage Cold Forging,” CIRP Annals - Manufacturing Technology, 64, 1, 2015, 285-288.
3. [3] Komiyama, S., Wang, Z. G. and Yuichi, Y., “Effect of Surface Preprocessing of Workpiece on Friction Behavior of Lubricant Coating in Cold Forging,” Journal of the Japan Society for Technology of Plasticity, 51, 597, 2010, 947-952 (in Japanese).
4. [4] Staia, M. H., Ramos, E., Carrasquero, A., Roman, A., Lesage, J., Chicot, D. and Mesmacque, G., “Effect of Substrate Roughness Induced by Grit Blasting upon Adhesion of WC-17% Co Thermal Sprayed Coatings,” Thin Solid Films, 377-378, 2000, 657-664.
5. [5] Hadad, M., Marot, F., Demarecaux, P., Chicot, D., Lesage, J., Rohr, L. and Siegmann, S., “Adhesion Tests for Thermal Spray Coatings: Correlation of Bond Strength and Interfacial Toughness,” Surface Engineering, 23, 4, 2007, 279-283.
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3. Effects of surface texturing pattern on the lubricity of mica–organic hybrid solid lubricants and parametric evaluation of their cleavabilities;Tribology International;2019-12
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