Investigation the Effects of Layer Structure on the Tribological Behaviour of PAI Overlays Containing MoS2
Subject Areas :Takayuki Doi 1 , Kazuki Enomoto 2 , Muhammad Nor Sharudin 3
1 - Division of Materials Science and Engineering, Graduate School of Meijo University, Aichi, Japan
2 - Department of Materials Science and Engineering, Meijo University, Aichi, Japan
3 - Faculty of Mechanical Engineering, Universiti Teknikal Malaysia Melaka, Melaka, Malaysia
Keywords:
Abstract :
[1] Kumada, Y., Hashizume, K. and Kimura, Y. 1998. Performance of Plain Bearings with Circumferential Microgrooves. Japanese Society of Tribologists. 43: 456-461.
[2] Sonobe, H. 2011. Trend of Plain Bearing Overlays for Diesel Engines, Journal of Japan Institute of Marine Engineering. 46(16):1-10.
[3] Horiba, Y., Kobayashi, S., Akita, H. and Usami, H. 2013. Friction properties of MoS2 penetrated aluminum alloy. Proceedings of JAST Tribology Conference.
[4] Ishihara, J. Enomoto, K. and Usami, H. 2015. Tribological properties of polymer overlay coated on the microtextured metal substrate. Proceedings of Malaysian International Tribology Conference.
[5] Qin, X., Ke , P., Wang, A., and Kim, K. H. 2013. Microstructure, Mechanical and Tribological Behaviors of MoS2-Ti Composite Coatings Deposited by a Hybrid HIPIMS Method. Surface and Coatings Technology. 228 (9):275-281.
[6] Renevier, N. M., Fox, V. C., Teer, D. G., and Hampshire, J. 2000. Coating Characteristics and Tribological Properties of Sputter-Deposited MoS2/Metal Composite Coatings Deposited by Closed Field Unbalanced Magnetron Sputter Ion Plating. Surface and Coatings Technology. 127(1): 24-37.
[7] Bülbül, F., Efeoğlu, İ., and Arslan, E., 2007. The Effect of Bias Voltage and Working Pressure on S/Mo Ratio at MoS2-Ti Composite Films. Applied Surface Science. 253(9): 4415-4419.
[8] Zhang, Y., Shockley, J. M., Vo, P. and Chromik, R. R. 2016. Tribological Behavior of a Cold-Sprayed Cu- MoS2 Composite Coating During Dry Sliding Wear. Tribology Letters. 62(1): Article number: 9.
[9] Liu, L., Huang, Z. B., Peng, Y. T. and Huang, P. 2017. Enhanced Lubrication and Photo-Catalytic Degradation of Liquid Paraffin by Coral-like MoS2. New Journal of Chemistry. 41(15): 7674-7680.
[10] Cai , S., Guo, P., Liu, J. Z., Zhang, D., Ke, P. L., Wang, A. Y., and Zhu, Y. J. 2017. Friction and Wear Mechanism of MoS2/C Composite Coatings Under Atmospheric Environment. Tribology Letters. 65(3). Article number: 79 .
[11] Chen, B. Li, X., Jia, Y., Li, X. Yang, J., Yan, F. and Li, C. 2018. MoS2 nanosheets-decorated carbon fiber hybrid for improving the friction and wear properties of polyimide composite. Composites Part A: Applied Science and Manufacturing. 109: 232-238.
[12] Meng, F. M., Cui, Z. T., Cheng, Z. T., and Han, H. L. 2018. Experimental Study on Tribological Properties of Graphite-MoS2 Coating on GCr15. Journal of Tribology. 140(5): 051303.
