Os artigos do Carros Infoco possuem como referência as seguintes fontes:

Livros

• STONE, Richard and K. BALLl, Jeffrey, “Automotive Engineering Fundamentals”, Society of Automotive Engineers, 2004;
• GILLESPIE, Thomas D, Fundamentals of Vehicle Dynamics, Warrendale, Society of Automotive Engineers, 1992. 470p;
• MILIKEN, William F. Douglas L. MILIKEN, Race Car Vehicles Dynamics”, Warrendale, Society of Automotive Engineers, 1995. 890p;
• A. CROLA, David, Automotive Engineering Powertrain, Chassis System and Vehicle Body, Oxford, Elsevier, 2009. 835p;
• GENTA, Giancarlo, MORELLO, Lorenzo, The Automotive Chassis Volume 1 Components Design, Torino, Editora Springer, 2009. 633p;
• HEISSING, Bernd, ERSOY, Metin. Chassis Handbook – Fundamentals, Driving Dynamics, Components, Mechatronics, Perspectives, Germany, Vieweg+Teubner, 2011. 591p;
• SENAI, Série Metódica Ocupacional;
• BOSCH, Robert, Manual de Tecnologia Automotiva. 25.ed. Edgard Blücher LTDA, 2004. 1231p;
• CHOLLET, H. M., Curso Prático e Profissional para Mecânicos de Automóveis: O motor e seus acessórios, Lausanne, Hemus, 1996. 402;
• B. HEYWOOD, John, Internal Combustion Engine Fundamentals, United States of America, McGraw-Hill, 1988. 930p;
• N. JAZAR, Reza, Vehicle Dynamics: Theory and Application, New York, Springer, 2008. 1015p;
• Ribbens, Willian B. Understanding Automotive Electronics. 6ªed. Elsevier Science (USA), 2003. 481p;
• Masterton, Willian L. Slowinski, Emil J. Stanitski, Conrad L. Princípios de Química. 6ª.ed. LTC – Livros Técnicos e Científicos Editora S.A. 1990. 681;
• Jóvaj, M. S. Motores de Automovil. Moscú. Editorial MIR, 1982;
• The car book, London, England, Dorling Kidersley Limited, 2011;
• Segers. J. Analisys Tequiniques for Racecar Data Acquisition, 1° Edição. Warrendale, PA. SAE International. 2008;
• Reif, K. Bosch: Brakes, Brake Control and Driver Assistance System: Function, Regulation and Components. Springer Fachmedien Wiesbaden, 2014;
• Day, Andrew. Braking of Road Vehicles, Chapter 10, Brake Noise and Judder. Elsevier, 2014, 418p. DOI: 10.1016/B978-0-12-397314-6.00005-X;
• Mehrdad, E. Gao, Y. Gay, E. S. Emadi, A. Modern Electric, Hybrid Electric, and Fuel Cell Vehicles. Fundamentals, Theory and Design. CRC Press, 2005;
• SHAPIRO, Ascher H. Shape and Flow: The Fluid Dynamics of Drag. 1. ed. atual. Londres: Anchor Books, [1961]. 186 p. ASIN B0006AX70E;
• Macey, S. and Wardle, G. H POINT – THE FUNDAMENTALS OF CAR DESIGN & PACKAGING. Design Studios Press, China, 1º ed, 2009;
• Guiggiani, Massimo. The Science of Vehicle Dynamics. Handling, Braking, and Ride of Road and Race Cars. New York, Springer, 2014;
• Livro do Automóvel, Seleções do Readers Digest, 1978;
• Haney, Paul. The Racing & High-Performance Tire – Using the Tires to Tune for Grip & Balance. TV Motorsports, SAE, January, 2003;
• Mitchell, William J. Borroni-Bird, Lawrence D. Burns. A Reinvençao do Automòvel: Mobilidade Urbana Pessoal para o Século XI. Edit.: Alaude, ISBN: 9788578810368.

Artigos, teses, dissertações e papers

• Scott, W. M., and Alcock, J. F.: “Some More Light On Diesel Combustion”  Proc. Auto Div., Instn Mech Engrs, No 5, pp. 179-191, 1962-1963;
• Guesser, W. L. , Baumer, I. , Tschiptschin, A. P. , Cueva, G. , Sinatora, A. Ferros Fundidos Empregados para Discos e Tambores de Freio. Brake Colloquium. Gramado, Brazil;
• Ganguly, S. , Tong, H. , Dudley, G. , Connolly, F. , Hoff, S. Eliminating Drum Brake Squeal by a Damped Iron Drum Assembly. 2007 World Congress, Detroit, Michigan, 2007;
• Iombriller, S. F. Análise Térmica e Dinâmica do Sistema de Freio à Disco de Veículos Comerciais. Escola de Engenharia de São Carlos, 2002.
• Dalto, G. R. N. Modelagem para simulação e análise numérica do fenômeno stick-slip em freios a disco. Universidade Federal do Ceará, 2019;
• Canali, R. J. Determinação de propriedades físicas de diferentes materiais para discos e pastilhas de freio e relação destas propriedades com ruído. Porto Alegre. Universidade Federal do Rio Grande do Sul, 2002;
• Dias A, Rodrigues R, Bezerra R, Lamary P, Miranda M. Light duty automotive duplex drum brake squeal analysis using the finite element method. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. May 2021. doi:10.1177/09544062211008465;
• Dias AL, Rodrigues R do N, Bezerra R de A, Lamary P, Miranda MH. Light duty automotive drum brake squeal analysis using the finite-element method. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. September 2021. doi:10.1177/14644207211035991;
• Dias, A.L., do Nascimento Rodrigues, R., de Araújo Bezerra, R. et al. Heavy Duty Automotive Drum Brake Squeal Analysis Using the Finite Element Method. J. Vib. Eng. Technol. (2021). https://doi.org/10.1007/s42417-021-00346-2;
• Dias AL, Rodrigues R dN, Bezerra R dA, Lamary P. Automotive simplex and duplex drum brake squeal analysis using the finite element method. Noise & Vibration Worldwide. February 2022. doi:10.1177/09574565211052692.
  
  

Internet

• OBD-II Trouble Codes Home. {online}. Disponível na internet via https://www.obd-codes.com/;
• Automotive Papers {online}. Disponível na internet via https://automotivepapers.wordpress.com/.