Commission Delegated Regulation (EU). (2014). 2015/68 supplementing Regulation (EU) No 167/2013 of the European Parliament and of the Council with regard to vehicle braking requirements for the approval of agricultural and forestry vehicles.
Glišović, J., Lukić, J., Šušteršič, V., Ćatić, D. (2015). Development of tractors and trailers in accordance with the requirements of legal regulations. In 9th International Quality Conference (pp. 193-201). Center for Quality, Faculty of Engineering, University of Kragujevac, paper no. 3504.
Kamiński, Z. (2014). Mathematical modelling of the trailer brake control valve for simulation of the air brake system of farm tractors equipped with hydraulically actuated brakes. Eksploatacja i Niezawodnosc – Maintenance and Reliability. 16(4), 637–643.
Kamiński, Z. (2012). Simulation and experimental testing of the pneumatic brake systems of agricultural vehicles. Białystok: Oficyna Wydawnicza Politechniki Białostockiej.
Kaminski, Z., Kulikowski, K. (2015). Determination of the functional and service characteristics of the pneumatic system of an agricultural tractor with mechanical brakes using simulation methods. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 17(3), 355–364.10.17531/ein.2015.3.5
Kaminski, Z., Radzajewski, P. (2019). Calculations of the optimal distribution of brake force in agricultural vehicles categories R3 and R4. Eksploatacja i Niezawodnosc – Maintenance and Reliability, 21(4), 645–653.10.17531/ein.2019.4.14
Keyser, D.E., Hogan, K. (1992). Hydraulic brake systems and components for off-highway vehicles and equipment. National Fluid Power Association Technical Paper Series 1992, 1-1.4, 1–9.
Khaled, M., Mahmoud R. (2005). Theoretical and experimental investigations one new adaptive duo servo drum brake with high and constant brake shoe factor. Warburger: University Paderborn.
Kulikowski, K., Kaminski, Z. (2019). Methods for improving the dynamic properties of the air braking systems of low-speed agricultural trailers. The Archives of Automotive Engineering – Archiwum Motoryzacji, 84.2, 5–22.
Lin, M., Zhang W. (2007). Dynamic simulation and experiment of a full power hydraulic braking system. Journal of University of Science and Technology Beijing, 29(10), 70–75.
Ondrus, J. Vrabel, J., Kolla E. (2018). The influence of the vehicle weight on the selected vehicle braking characteristics. In Transport Means – Proceedings of the International Conference: 22nd International Scientific on Conference Transport Means 2018, 384–390. Lithuania.
Ren, H., Zhecheng, J., (2019). Study on braking stability of commercial vehicles: An optimized air brake system. Advances in Mechanical Engineering, 11(5), 1–10.
Tang, G., Zhao, H., Wu, J., Zhang Y. (2013). Optimization of Braking Force Distribution for Three-Axle Truck. SAE Technical Paper 2013-01-0414.10.4271/2013-01-0414
UN Economic Commission for Europe. (2001). ECE Regulation No. 13. Uniform provisions concerning the approval of vehicles of categories M, N and O with regard to braking. Geneva. Switzerland.
Wang, X. et al. (2011). A study on the asynchronous brake lock-up of a statically indeterminate tractor with an air suspension. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, 225(4), 507–516.
Vrabel, J., Jagelcak, J., Zamecnik, J., Caban J. (2017). Influence of Emergency Braking on Changes of the Axle Load of Vehicles Transporting Solid Bulk Substrates. Transportation science and technology, 187, 89–99.10.1016/j.proeng.2017.04.354