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Tribology Transactions Volume 62, 2019 - Issue 4
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Original Articles

Effect of LNBR Content on the Properties of the Carbon Fiber–Reinforced Paper-Based Friction Materials

Jinhua LuState Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi’an, P.R. ChinaCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-6051-6576View further author information
ORCID Icon,
Yafei LiState Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi’an, P.R. ChinaView further author information
,
Yun WangState Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi’an, P.R. ChinaView further author information
&
Yewei FuState Key Laboratory of Solidification Processing, Northwestern Polytechnical University, Xi’an, P.R. ChinaView further author information
Pages 537-547 | Received 09 Aug 2017, Accepted 12 May 2018, Published online: 06 May 2019

References

  • Kimura, Y. and Otani, C. (2005), “Contact and Wear of Paper-Based Friction Materials for Oil-Immersed Clutches—Wear Model for Composite Materials,” Tribology International, 38(11–12), pp 943–950. the ''111'' project;[TQ1]
  • Ost, W., De Baets, P., and Degrieck, J. (2001), “The Tribological Behaviour of Paper Friction Plates for Wet Clutch Application Investigated on SAE#II and Pin-on-Disk Test Rigs,” Wear, 249(5–6), pp 361–371.
  • Ingram, M., Spikes, H., Noles, J., and Watts, R. (2010), “Contact Properties of a Wet Clutch Friction Material,” Tribology International, 43(4), pp 815–821.
  • Fei, J., Li, H. J., Fu, Y. W., Qi, L. H., and Zhang, Y. L. (2010), “Effect of Phenolic Resin Content on Performance of Carbon Fiber Reinforced Paper-Based Friction Material,” Wear, 269(7–8), pp 534–540.
  • Fei, J., Luo, W., Li, H. J., Huang, J. F., Ouyang, H. B., and Wang, H. K. (2015), “Effects of NBR Particle Size on Performance of Carbon Fiber–Reinforced Paper–Based Friction Material,” Tribology Transactions, 58(6), pp 1012–1020.
  • Li, C., Ma, Z. Z., Zhang, X. W., Fan, H., and Wan, J. T. (2016), “Silicone-Modified Phenolic Resin: Relationships between Molecular Structure and Curing Behavior,” Thermochimica Acta, 639, pp 53–65.
  • Li, S., Han, Y., Chen, F. H., Luo, Z. H., Li, H., and Zhao, T. (2016), “The Effect of Structure on Thermal Stability and Anti-Oxidation Mechanism of Silicone Modified Phenolic Resin,” Polymer Degradation and Stability, 124, pp 68–76.
  • Liu, Y. Q., Fan, Z. Q., Ma, H. Y., Tan, Y. G., and Qiao, J. L. (2006), “Application of Nano Powdered Rubber in Friction Materials,” Wear, 261(2), pp 225–229.
  • Nidhi, Satapathy, B. K., Bijwe, J., and Majumdar, N. (2006), “Influence of Modified Phenolic Resins on the Fade and Recovery Properties of the Friction Materials: Supportive evidence Multiple Criteria Decision-Making Method (MCDM),” Journal of Reinforced Plastics and Composites, 25(13), pp 1333–1340.
  • Saffar, A. and Shojaei, A. (2012), “Effect of Rubber Component on the Performance of Brake Friction Materials,” Wear, 274, pp 286–297.
  • Wang, F. Y., Huang, Z. X., Liu, Y., and Li, Y. X. (2017), “Novel Cardanol-Containing Boron-Modified Phenolic Resin Composites: Non-Isothermal Curing Kinetics, Thermal Properties, and Ablation Mechanism,” High Performance Polymers, 29(3), pp 279–288.
  • Wang, H., Fu, Y., Zhang, X., Pan, G., and Zhang, H. (2014), “Effects of Resin Binder on the Properties of Paper-Based Friction Material,” Lubrication Engineering, 39(3), pp 52–56.
  • Zhang, X., Li, K. Z., Li, H. J., Fu, Y. W., and Fei, J. (2014), “Tribological and Mechanical Properties of Glass Fiber Reinforced Paper-Based Composite Friction Material,” Tribology International, 69, pp 156–167.
  • Zhao, G., Ding, Q. J., and Wang, Q. H. (2016), “Comparative Study on the Tribological Properties of the Polyimide Composites Reinforced With Different Fibers,” Polymer Composites, 37(8), pp 2541–2548.
  • Xian, G. J. and Zhang, Z. (2005), “Sliding Wear of Polyetherimide Matrix Composites II. Influence of Graphite Flakes,” Wear, 258(5–6), pp 783–788.
  • Rasheva, Z., Zhang, G., and Burkhart, T. (2010), “A Correlation between the Tribological and Mechanical Properties of Short Carbon Fibers Reinforced PEEK Materials with Different Fiber Orientations,” Tribology International, 43(8), pp 1430–1437.
  • Chen, B. B., Wang, J. Z., Liu, N., and Yan, F. Y. (2013), “Synergetic Effect of Lubricant Additive and Reinforcement Additive on the Tribological Behaviors of PEEK-Based Composites under Seawater Lubrication,” Tribology Transactions, 56(4), pp 672–680.
  • Fei, J., Luo, W., Huang, J. F., Ouyang, H. B., Xu, Z. W., and Yao, C. Y. (2015), “Effect of Carbon Fiber Content on the Friction and Wear Performance of Paper-Based Friction Materials,” Tribology International, 87, pp 91–97.
  • Ma, H., Wei, G., Zhang, X., Liu, Y., Huang, F., and Qiao, J. (2005), “Study on Modification of Phenolic Resin by Elastomeric Nanoparticles of Nitrile Butadiene,” Acta Polymerica Sinica, 96(3), pp 467–470.
  • Liu, X. J., Wang, H. Q., and Wu, X. Y. (2014), “Effect of the Rubber Components on the Mechanical Properties and Braking Performance of Organic Friction Materials,” Journal of Macromolecular Science Part B, 53(4), pp 707–720.
  • GB13826-2008. (2008), Wet (Non-Metals) Friction Material, SAC: Beijing, China.
  • Berger, E. J., Sadeghi, F., and Krousgrill, C. M. (1997), “Torque Transmission Characteristics of Automatic Transmission Wet Clutches: Experimental Results and Numerical Comparison,” Tribology Transactions, 40(4), pp 539–548.
  • Matsumoto, T. (1994), “The Influence of Paper-Based Friction Material Porosity on the Performance of a Wet Clutch.”
  • Natsumeda, S. and Miyoshi, T. (1994), “Numerical Simulation of Engagement of Paper Based Wet Clutch Facing,” Journal of Tribology, 116(2), pp 232–237.
  • Matsumoto, T. (1995), “A Study of the Durability of a Paper-Based Friction Material Influenced by Porosity,” Journal of Tribology, 117(2), pp 272–278.
  • Shizhou, W. (2012), Principles of Tribological, Tsinghua University Press: Beijing, China.
  • Persson, B. N. J. (2007), “Theory of Rubber Friction and Contact Mechanics,” Journal of Chemical Physics, 115(8), pp 3840–3861.
  • Moore, D. F. and Geyer, W. (1972), “A Review of Adhesion Theories for Elastomers,” Wear, 22(2), pp 113–141.
  • Moore, D. F. and Geyer, W. (1974), “A Review of Hysteresis Theories for Elastomers,” Wear, 30(1), pp 1–34.
  • Xu, X. F., Wu, Z. P., Wu, D. Z., and Jin, R. G. (2009), “Studies on Modification of Phenolic Resin by CTBN,” Fiber Reinforced Plastics/Composites, 26(1), pp 47–50.
  • Adachi, T., Kataoka, T., and Higuchi, M. (2015), “Predicting Impact Shear Strength of Phenolic Resin Adhesive Blended with Nitrile Rubber,” International Journal of Adhesion & Adhesives, 56, pp 53–60.
  • Albano, C., Ichazo, M. N., Boyer, I., Hernández, M., González, J., Karam, A., and Covis, M. (2012), “Study of the Thermal Stability of Nitrile Rubber–Coconut Flour Compounds,” Polymer Degradation & Stability, 97(11), pp 2202–2211.
  • Chen, Y., Chen, Z., Xiao, S., and Liu, H. (2008), “A Novel Thermal Degradation Mechanism of Phenol–Formaldehyde Type Resins,” Thermochimica Acta, 476(1–2), pp 39–43.
  • Wang, J., Jiang, H., and Jiang, N. (2009), “Study on the Pyrolysis of Phenol–Formaldehyde (PF) Resin and Modified PF Resin,” Thermochimica Acta, 496(1), pp 136–142.

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