Tribological assessment of rice husk ash in eco-friendly brake friction materials
- Author
- G.S. Gehlen, A. P. G. Nogueira, D. Carlevaris, L. Y. Barros, Jean Carlos Poletto (UGent) , G. Lasch, G. Straffelini, N. F. Ferreira and P. D. Neis
- Organization
- Abstract
- The tribological behavior of new green friction materials with rice husk (RH) and rice husk ash (RHA) is dis-cussed in the current paper. Two formulations developed, one with 6% RH and one with 6% RHA, were compared with a reference formulation with alumina under the AK Master test, through a braking tribometer. Formulation with RHA showed tribological performance equal to or better than the reference material, especially in high temperature applications where the RHA particles assisted in the building of the contact plateaus. Adding RH reduced the abrasive action of the composite, allowing the formation of a more homogeneous tribofilm on the disc than in the other formulations.
- Keywords
- Materials Chemistry, Surfaces, Coatings and Films, Surfaces and Interfaces, Mechanics of Materials, Condensed Matter Physics, FIBERS, PERFORMANCE, COMPOSITES, SELECTION, BEHAVIOR, SURFACE, PADS, WEAR, Rice husk ash, Natural fibers, Eco-friendly friction materials
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01GPBYVRW0CZGX0T2ERKCCMBG7
- MLA
- Gehlen, G. S., et al. “Tribological Assessment of Rice Husk Ash in Eco-Friendly Brake Friction Materials.” WEAR, vol. 516–517, 2023, doi:10.1016/j.wear.2022.204613.
- APA
- Gehlen, G. S., Nogueira, A. P. G., Carlevaris, D., Barros, L. Y., Poletto, J. C., Lasch, G., … Neis, P. D. (2023). Tribological assessment of rice husk ash in eco-friendly brake friction materials. WEAR, 516–517. https://doi.org/10.1016/j.wear.2022.204613
- Chicago author-date
- Gehlen, G.S., A. P. G. Nogueira, D. Carlevaris, L. Y. Barros, Jean Carlos Poletto, G. Lasch, G. Straffelini, N. F. Ferreira, and P. D. Neis. 2023. “Tribological Assessment of Rice Husk Ash in Eco-Friendly Brake Friction Materials.” WEAR 516–517. https://doi.org/10.1016/j.wear.2022.204613.
- Chicago author-date (all authors)
- Gehlen, G.S., A. P. G. Nogueira, D. Carlevaris, L. Y. Barros, Jean Carlos Poletto, G. Lasch, G. Straffelini, N. F. Ferreira, and P. D. Neis. 2023. “Tribological Assessment of Rice Husk Ash in Eco-Friendly Brake Friction Materials.” WEAR 516–517. doi:10.1016/j.wear.2022.204613.
- Vancouver
- 1.Gehlen GS, Nogueira APG, Carlevaris D, Barros LY, Poletto JC, Lasch G, et al. Tribological assessment of rice husk ash in eco-friendly brake friction materials. WEAR. 2023;516–517.
- IEEE
- [1]G. S. Gehlen et al., “Tribological assessment of rice husk ash in eco-friendly brake friction materials,” WEAR, vol. 516–517, 2023.
@article{01GPBYVRW0CZGX0T2ERKCCMBG7, abstract = {{The tribological behavior of new green friction materials with rice husk (RH) and rice husk ash (RHA) is dis-cussed in the current paper. Two formulations developed, one with 6% RH and one with 6% RHA, were compared with a reference formulation with alumina under the AK Master test, through a braking tribometer. Formulation with RHA showed tribological performance equal to or better than the reference material, especially in high temperature applications where the RHA particles assisted in the building of the contact plateaus. Adding RH reduced the abrasive action of the composite, allowing the formation of a more homogeneous tribofilm on the disc than in the other formulations.}}, articleno = {{204613}}, author = {{Gehlen, G.S. and Nogueira, A. P. G. and Carlevaris, D. and Barros, L. Y. and Poletto, Jean Carlos and Lasch, G. and Straffelini, G. and Ferreira, N. F. and Neis, P. D.}}, issn = {{0043-1648}}, journal = {{WEAR}}, keywords = {{Materials Chemistry,Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanics of Materials,Condensed Matter Physics,FIBERS,PERFORMANCE,COMPOSITES,SELECTION,BEHAVIOR,SURFACE,PADS,WEAR,Rice husk ash,Natural fibers,Eco-friendly friction materials}}, language = {{eng}}, pages = {{13}}, title = {{Tribological assessment of rice husk ash in eco-friendly brake friction materials}}, url = {{http://doi.org/10.1016/j.wear.2022.204613}}, volume = {{516-517}}, year = {{2023}}, }
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