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New Generation Friction Materials and Technologies
Technical Paper
2006-01-0150
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Several new generation friction materials with high energy, high coefficient of friction; good μ-v characteristics and durability were presented. These new generation materials were developed based on fundamental tribological friction interface phenomena understanding through various predictive models as well as chemical and physical characterization methods for friction materials / fluid interface interactions. Such new generation materials include desired characteristics for various wet clutch applications, e.g., wet start clutches, shifting clutches, and continuous slip clutches.
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Citation
Lam, R., Chavdar, B., and Newcomb, T., "New Generation Friction Materials and Technologies," SAE Technical Paper 2006-01-0150, 2006, https://doi.org/10.4271/2006-01-0150.Also In
References
- Patir, N. Cheng, H. “An average flow model for determining effects of three-dimensional roughness on partial hydrodynamic lubrication” ASME Journal of Lubrication Technology 100 12 17 1978
- Yang, Y.B. Lam, R.C. Fujii, T. “Prediction of torque response during the engagement of wet friction clutch” SAE Paper 981097 1998
- Ikawa, S. Ito, K. Kubota, M. Shibuya, T. Yoshida, S. “Trend of Friction Materials Developments,” 98 TVT Symposium Yokohama Japan 1998
- Chen, Y. Newcomb, T. Lam, R. “Friction Material/Oil Interface for Slipping Clutch Applications,” SAE Paper 2001-01-11543 2001
- Lam R. Kowal, S. “Fluid Transport Phenomena during Engagement of Fiber-Reinforced Polymeric Friction Materials,” SAE Paper 9221654 1990
- Fairbank, D. Maruo, K. Du, S. Newcomb, T. “ATF Additive Effects on Hot Spot Formation in Wet Clutches,” SAE Paper 2001-01-3594 2001
- Lam, R. Chen, Y. “Friction Material for Continuous Slip Torque Converter Applications: Anti-shudder Considerations,” SAE Paper 941031 1994
- Kamada, Y. et al. “Wet Friction Materials for Continuous Slip Torque Converter Clutch, Tribology for Energy Conservation,” Elseveir Science B. V. 1998
- Chavdar, B. “Permeameter-Porosimeter”
- Cavdar, B. “Tribometer”
- AMESim User Manual v.4.2 Imagine S.A. 2004
- Lam, Robert et al. “Emerging New Friction Materials Technologies for Torque Capacity Prediction and Friction Materials Development,” TVT Symposium Japan 1998
- Nels, Terry E. “Properties of Automatic Transmission Friction Papers” TAPPI Journal 231 TAPPI Atlanta Ga. 1978
- Lam, R. “Fibrous Lining Material Comprising a Primary Layer Having Less Fibrillated Aramid Fibers, Carbon Fibers, Carbon Particles and a Secondary Layer Comprising Carbon Particles,” 1999
- Seiz, D. “Friction material having heat-resistant paper support bearing resin-bonded carbon particles,” 1992
- Wirth, J. “Research into the Use of Controlled Surface Technologies for Clutch Friction Surfaces,” SAE Paper 2001-01-1157 2001
- Yang, Y. Lam, R.C. Chen, Y.F. Yabe, H. “Modeling of Heat Transfer and Fluid Hydrodynamics for a Multidisc Wet Clutch,” SAE Paper No. 950898 1995