References
- ANAC, 2019. Regulamento Brasileiro da Aviação Civil (RBAC) N° 153: Aeródromos - Operação, Manutenção e Resposta à Emergência. Available from: https://www.anac.gov.br/assuntos/legislacao/legislacao-1/boletim-de-pessoal/2019/19s2/anexo-i-rbac-no-153-emenda-04 [Accessed 21 November 2019].
- Ashtiani, R.S., Pullen, A.B., and Hammons, M.I., 2016. Comparative study of water-blasting equipment for airfield surface decontamination. Journal of Materials in Civil Engineering, 28 (8), 04016053.
- Chen, J.-S., et al., 2008. Effect of rubber deposits on runway pavement friction characteristics. Transportation Research Record, 2068 (1), 119–125.
- Chen, J.-S., Chen, S.-F., and Liao, M.-C., 2013. Macroscopic and microscopic evaluation of surface friction of airport pavements. International Journal of Pavement Research & Technology, 6 (5), 588–594.
- De Luca, M., et al., 2016. Preliminary study on runway pavement friction decay using data mining. Transportation Research Procedia, 14, 3751–3760.
- FAA, 1997. Measurement, construction and maintenance of skid resistant airport pavement surfaces. Federal Aviation Administration Advisory Circular.150/5320-12C. Department of Transportation. Washington, DC: Federal Aviation Administration.
- Flintsch, G.W., et al., 2003. Pavement surface macrotexture measurement and applications. Pavement Assessment, Monitoring, and Evaluation: Pavement Design, Management, And Performance. Book Series: Transportation Research Record-Series. Issue: 1860, p. 168–177.
- Fwa, T.F., Chan, W.T., and Lim, C.T., 1997. Decision framework for pavement friction management of airport runways. Journal of Transportation Engineering, 123 (6), 429–435.
- Horne, W.B., and Dreher, R.C., 1963. Phenomena of pneumatic tire hydroplaning. Washington DC: National Aeronautics and Space Administration.
- ICAO, 2002. Aerodrome service manual, part 2 pavement surface condition. Doc 9137-AN/898. International Civil Aviation Organization, Montreal, Canada.
- ICAO, 2004. Manual on the regulation of international air transport. International Civil Aviation Organization. Montreal, Canada.
- Leocádio, A.S., 2014. Avaliação da pista de pouso e decolagem do Aeroporto Internacional de Manaus/Eduardo Gomes. Dissertation. Universidade Federal do Amazonas.
- Lugão, W.G., 2008. Análise da aderência entre pneu e pavimento com Camada Porosa de Atrito no Aeroporto Internacional Tancredo Neves–MG. Thesis. Universidade Federal de Viçosa.
- Mota, I.P., et al., 2016. Verificação multicritério das condições físicas para a segurança operacional aeroportuária. Transportes, 24 (2), 21–26. doi:10.14295/transportes.v24i2.1033.
- Pasindu, H.R., Fwa, T.F., and Ong, G.P., 2016. Analytical evaluation of aircraft operational risks from runway rutting. International Journal of Pavement Engineering, 17 (9), 810–817.
- Pullen, A.B., et al., 2013. Airport rubber removal: a comparison of ultra-high pressure water runway rubber removal systems. Airfield and Highway Pavement 2013: Sustainable and Efficient Pavements - Proceedings of the 2013 Airfield and Highway Pavement Conference. p. 677–690.
- Rodrigues Filho, O.S., 2006. Adherence characteristics of asphalt runway surfaces. Case of São Paulo/Congonhas International Airport. Dissertation. Escola Politécnica of the University of São Paulo (The Engineering School).
- Silva, J.P.S., 2008. Aderência Pneu-Pavimento em Revestimentos Asfálticos Aeroportuários. Dissertation. University of Brasília.
- Stroup-Gardiner, M., Studdard, J., and Wagner, C., 2004. Evaluation of hot mix asphalt macro- and microtexture. Journal of Testing and Evaluation, 32 (1), 7–16.