References
- Fu Z, Suo B, Yun R, et al. Development of ecofriendly brake friction composites containing flax fibers. J Reinf Plast Compos. 2012;31:681–689.
- Liew KW, Nirmal U. Frictional performance evaluation of newly designed brake pad materials. Mater Des. 2012;48:25–33.
- Xin X, Xu CG, Qing LF. Frictional properties of sisal fiber reinforced resin brake composites. Wear. 2006;262:736–741.
- Keskin A. Investigation of using natural zeolite in brake pad. Sci Res Essays. 2011;23:4893–4904.
- EL-Tayeb NSM, Liew KW. On the dry and wet sliding performance of potentially new frictional brake pad materials for automotive industry. Wear 2008;266:275–287.
- Lu Y. A combinatorial approach for automotive friction materials: effects of ingredients on friction performance. Compos Sci Technol. 2006;66:591–598.10.1016/j.compscitech.2005.05.032
- Lu Y. A combinatorial approach for automotive friction materials: combined effects of ingredients on friction performance. Polym Compos. 2002;23:814–823.10.1002/(ISSN)1548-0569
- Yun R, Filip P, Lu Y. Performance and evaluation of ecofriendly brake friction materials. Tribol Int. 2010;43:2010–2019.10.1016/j.triboint.2010.05.001
- Goriparthi BK, Suman KNS, Rao NM. Effect of fiber surface treatments on mechanical and abrasive wear performance of polylactide/jute composites. Composites 2012;43:1800–1808.10.1016/j.compositesa.2012.05.007
- Kumar M, Bijwe J. Role of different metallic fillers in non-asbestos organic (NAO) friction composites for controlling sensitivity of coefficient of friction to load and speed. Tribol Int. 2012;43:965–974.
- Daoud A, EL-khair MTA. Wear and friction behavior of sand cast brake rotor made of A359-20 vol%SiC particle composites sliding against automobile friction material. Tribol Int. 2010;43:544–553.10.1016/j.triboint.2009.09.003
- Uyyuru RK, Surappa MK, Brusethaug S. Effect of reinforcement volume fraction and size distribution on the tribological behavior of Al-composite/brake pad tribo-couple. Wear. 2006;260:1248–1255.10.1016/j.wear.2005.08.011
- Ravikiran A. Effect of pin specimen contact length in the sliding direction on tribological results of pin-on-disc tests. Tribol Lett. 1998;4:49–58.10.1023/A:1019122314648
- Schwartz CJ, Bahadur S. The role of filler deformability, filler–polymer bonding, and counterface material on the tribological behavior of polyphenylene sulfide (PPS). Wear. 2001;251:1532–1540.10.1016/S0043-1648(01)00799-2
- Zhang MQ, Rong MZ, Yu SL, et al. Effect of particle surface treatment on the tribological performance of epoxy based nanocomposites. Wear. 2002;253:126–136.
- Myshkin N, Petrokovets M, Kovalev AV. Tribology of polymers: adhesion, friction, wear, and mass-transfer. Tribol Int. 2005;38:910–921.10.1016/j.triboint.2005.07.016
- Bajpai PK, Singh I, Madaan J. Tribological behavior of natural fiber reinforced PLA composites. Wear. 2012;297:829–840.
- Sumer M, Unal H, Mimaroglu A. Evaluation of tribological behaviour of PEEK and glass fibre reinforced PEEK composite under dry sliding and water lubricated conditions. Wear. 2008;265:1061–1065.10.1016/j.wear.2008.02.008
- Davim JP, Cardoso R. Effect of the reinforcement (carbon or glass fibres) on friction and wear behaviour of the PEEK against steel surface at long dry sliding. Wear. 2009;266:795–799.10.1016/j.wear.2008.11.003
- Chauhan SR, Kumar A, Singh I. Sliding friction and wear behaviour of vinylester and its composites under dry and water lubricated sliding conditions. Mater Des. 2010;31:2745–2751.10.1016/j.matdes.2010.01.020
- Quintelier J, De Baets P, Samyn P, et al. On the SEM features of glass–polyester composite system subjected to dry sliding wear. Wear. 2006;261:703–714.10.1016/j.wear.2006.01.006
- El-Tayeb NSM. Abrasive wear performance of untreated SCF reinforced polymer composite. J Mater Process Technol. 2008;206:305–314.10.1016/j.jmatprotec.2007.12.028
- Eriksson M, Bergman F, Jacobson S. On the nature of tribological contact in automotive brakes. Wear. 2002;252:26–36.10.1016/S0043-1648(01)00849-3
- Kim SJ, Jang H. Friction and wear of friction materials containing two different phenolic resins reinforced with aramid pulp. Tribol Int. 2000;33:477–484.
- Mohamad Raffi N, Srinivasan V. A study on wear behavior of γ-UHMWPE sliding against 316L stainless steel counter face. Wear. 2013;306:22–26.10.1016/j.wear.2013.06.023
- Srinivasan V, Asaithambi B, Ganesan G, et al. Wear mechanism of glass fiber reinforced epoxy composites under dry sliding using fuzzy clustering technique. J Reinf Plast Compos. 2009;28:1349–1358.10.1177/0731684408089489