This study examines the mapping of research bibliometric data analysis related to resin-based brake pads. The research data was collected through the publish or perish reference manager application from the Google Scholar database. The title of the study material and abstract is used as a basis for searching for availability based on the specified keywords, namely "Resin-based Brake Pads". The search results show a total of 398 articles that are relevant and used in the mapping analysis. VOSviewer is used to complete the mapping process. The study period used as the study material was articles published in Google Scholar indexed journals from 2012 to 2021. We examined the number of published articles on resin-based brake pads and their relationship to problem areas using VOSviewer. The results showed that research on resin-based breake pads experienced an increase in research interest from 2017 to 2021. The smallest number of publications occurred in 2015 with 23 publications. There are main terms that are usually discussed and related to the research theme of resin-based brake pads, namely pad material, development and epoxy resin. This review is expected to serve as a starting point for conducting research by taking the field of study of resin-based brake pads.

Bibliometric; Computational Mapping Analysis; Resin-Based Brake Pads; VOSviewer.

Ademoh, N. A., and Olabisi, A. I. (2015). Development and evaluation of maize husks (asbestos-free) based brake pad. Development, 5(2), 67-80.

Afolabi, M., Abubakre, O. K., Lawal, S. A., and Raji, A. (2015). Experimental investigation of palm kernel shell and cow bone reinforced polymer composites for brake pad production. International Journal of Chemistry and Materials Research, 3(2), 27-40.

Al Husaeni, D. F., and Nandiyanto, A. B. D. (2022). Bibliometric using Vosviewer with Publish or Perish (using google scholar data): From step-by-step processing for users to the practical examples in the analysis of digital learning articles in pre and post Covid-19 pandemic. ASEAN Journal of Science and Engineering, 2(1), 19-46.

Behal, R. H., Miller, M. S., Qin, H., Lucker, B. F., Jones, A., and Cole, D. G. (2012). Subunit interactions and organization of the Chlamydomonas reinhardtii intraflagellar transport complex A proteins. Journal of Biological Chemistry, 287(15), 11689-11703.

Benjamin, U., and Hilary, U. (2019). Tensile behaviour of oil bean pod shell and mahogany sawdust reinforced epoxy resin composite. International Journal of Science, Technology and Society, 7(1), 1.

Chai, W.M., Liu, X., Hu, Y.H., Feng, H.L., Jia, Y.L., Guo, Y.J., Zhou, H.T. and Chen, Q.X., (2013). Antityrosinase and antimicrobial activities of furfuryl alcohol, furfural and furoic acid. International journal of biological macromolecules, 57, 151-155.

Chang, P., Mei, H., Zhou, S., Dassios, K. G., and Cheng, L. (2019). 3D printed electrochemical energy storage devices. Journal of Materials Chemistry A, 7(9), 4230-4258.

Del Pero, F., Delogu, M., Pierini, M., and Bonaffini, D. (2015). Life Cycle Assessment of a heavy metro train. Journal of Cleaner Production, 87, 787-799.

Deni, S., and Nandiyanto, A. B. D. (2022). Bibliometric analysis of nano-sized agricultural waste brake pads research during 2018-2022 using Vosviewer. International Journal of Sustainable Transportation Technology, 5(1), 12-17.

Denier van der Gon, H.A., Gerlofs-Nijland, M.E., Gehrig, R., Gustafsson, M., Janssen, N., Harrison, R.M., Hulskotte, J., Johansson, C., Jozwicka, M., Keuken, M. and Krijgsheld, K. (2013). The policy relevance of wear emissions from road transport, now and in the future—an international workshop report and consensus statement. Journal of the Air and Waste Management Association, 63(2), 136-149.

Grujicic, M., d’Entremont, B. P., Pandurangan, B., Runt, J., Tarter, J., and Dillon, G. (2012). Concept-level analysis and design of polyurea for enhanced blast-mitigation performance. Journal of Materials Engineering and Performance, 21(10), 2024-2037.

Harper, D.A., Runyan, M.C., Dowell, C.D., Wirth, C.J., Amato, M., Ames, T., Amiri, M., Banks, S., Bartels, A., Benford, D.J. and Berthoud, M. (2018). HAWC+, the far-infrared camera and polarimeter for SOFIA. Journal of Astronomical Instrumentation, 7(04), 1840008.

Hwang, H. M., Fiala, M. J., Park, D., and Wade, T. L. (2016). Review of pollutants in urban road dust and stormwater runoff: part 1. Heavy metals released from vehicles. International Journal of Urban Sciences, 20(3), 334-360.

Idris, U. D., Aigbodion, V. S., Abubakar, I. J., and Nwoye, C. I. (2015). Eco-friendly asbestos free brake-pad: Using banana peels. Journal of King Saud University-Engineering Sciences, 27(2), 185-192.

Ikpambese, K. K., Gundu, D. T., and Tuleun, L. T. (2016). Evaluation of palm kernel fibers (PKFs) for production of asbestos-free automotive brake pads. Journal of King Saud University-Engineering Sciences, 28(1), 110-118.

Kole, P. J., Löhr, A. J., Van Belleghem, F. G., and Ragas, A. M. (2017). Wear and tear of tyres: a stealthy source of microplastics in the environment. International Journal of Environmental Research and Public Health, 14(10), 1265.

Kumar, S., and Ghosh, S. K. (2020). Particle emission of organic brake pad material: A review. Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering, 234(5), 1213-1223.

Li, X., Shi, T., Li, B., Chen, X., Zhang, C., Guo, Z., and Zhang, Q. (2019). Subtractive manufacturing of stable hierarchical micro-nano structures on AA5052 sheet with enhanced water repellence and durable corrosion resistance. Materials and Design, 183, 108152.

Maleque, M. A., Atiqah, A., Talib, R. J., and Zahurin, H. (2012). New natural fibre reinforced aluminium composite for automotive brake pad. International Journal of Mechanical and Materials Engineering, 7(2), 166-170.

Manoharan, S., Vijay, R., Lenin Singaravelu, D., and Kchaou, M. (2019). Experimental investigation on the tribo-thermal properties of brake friction materials containing various forms of graphite: a comparative study. Arabian Journal for Science and Engineering, 44(2), 1459-1473.

Nandiyanto, A. B. D., and Al Husaeni, D. F. (2021). A bibliometric analysis of materials research in Indonesian journal using VOSviewer. Journal of Engineering Research, 9(ASSEEE Special Issue), 1-16.

Nandiyanto, A. B. D., Al Husaeni, D. F., Ragadhita, R., and Kurniawan, T. (2021b). Resin-based Brake Pad from Rice Husk Particles: From Literature Review of Brake Pad from Agricultural Waste to the Techno-Economic Analysis. Automotive Experiences, 4(3), 131-149.

Nandiyanto, A. B. D., Hofifah, S. N., Girsang, G. C. S., Putri, S. R., Budiman, B. A., Triawan, F., and Al-Obaidi, A. S. M. (2021a). The effects of rice husk particles size as a reinforcement component on resin-based brake pad performance: From literature review on the use of agricultural waste as a reinforcement material, chemical polymerization reaction of epoxy resin, to experiments. Automotive Experiences, 4(2), 68-82.

Odhner, L.U., Jentoft, L.P., Claffee, M.R., Corson, N., Tenzer, Y., Ma, R.R., Buehler, M., Kohout, R., Howe, R.D. and Dollar, A.M., (2014). A compliant, underactuated hand for robust manipulation. The International Journal of Robotics Research, 33(5), 736-752.

Ortegon, K., Nies, L. F., and Sutherland, J. W. (2013). Preparing for end of service life of wind turbines. Journal of Cleaner Production, 39, 191-199.

Pérez, B., and Echeberria, J. (2019). Influence of abrasives and graphite on processing and properties of sintered metallic friction materials. Heliyon, 5(8), e02311.

Renz, R., Seifert, G., and Krenkel, W. (2012). Integration of CMC brake disks in automotive brake systems. International Journal of Applied Ceramic Technology, 9(4), 712-724.

Revitt, D. M., Lundy, L., Coulon, F., and Fairley, M. (2014). The sources, impact and management of car park runoff pollution: a review. Journal of Environmental Management, 146, 552-567.

Sedlák, M., and Rak, D. (2013). Large-scale inhomogeneities in solutions of low molar mass compounds and mixtures of liquids: supramolecular structures or nanobubbles?. The Journal of Physical Chemistry B, 117(8), 2495-2504.

Selvaraj, S. K., Ramesh, R., Narendhra, T., Agarwal, I. N., Chadha, U., Paramasivam, V., and Palanisamy, P. (2021). New developments in carbon-based nanomaterials for automotive brake pad applications and future challenges. Journal of Nanomaterials, 2021, 1-24.

Singh, T., Patnaik, A., Chauhan, R., and Rishiraj, A. (2017). Assessment of braking performance of lapinus–wollastonite fibre reinforced friction composite materials. Journal of King Saud University-Engineering Sciences, 29(2), 183-190.

Su, L., Gao, F., Han, X., Fu, R., and Zhang, E. (2015). Tribological behavior of copper–graphite powder third body on copper-based friction materials. Tribology Letters, 60(2), 1-12.

Sugözü, İ., and Güdük, M. (2019). Experimental investigation of a novel friction modifier in composite materials. Turkish Journal of Engineering, 3(4), 197-200.