Analysis of prospects for improvement and development of vehicle suspension structures
Evgeniy N. Martynov , Ilya S. Potashov , Alexander I. Bokarev
Izvestiya MGTU MAMI ›› 2023, Vol. 17 ›› Issue (3) : 273 -286.
Analysis of prospects for improvement and development of vehicle suspension structures
BACKGROUND: The growth of consumer expectations from an automaker encourages engineers to develop and implement new design, technical and electronic solutions in various vehicle systems to ensure the stability of the vehicle’s consumer attributes at low and high speeds in a variety of road conditions. In the direction of achieving the required consumer attributes of a vehicle, the design of the suspension links plays a decisive role. There is a wide variety of design and technical solutions, so the task of conducting a review study to reflect the trend in suspension architecture development becomes relevant.
AIMS: Determination of the trend in the development of design and technical solutions used in the vehicle chassis, aimed to improve the operational attributes of a vehicle such as stability, handling, ride smoothness and reliability.
METHODS: Methods of statistical analysis.
RESULTS: The results are presented in the form of a systematic statistical study of design and technical solutions used in the vehicle chassis, aimed to improve the operational attributes of a vehicle.
CONCLUSIONS: The result obtained can be applied for the correct goal setting in the development of passenger cars.
vehicle chassis / consumer attributes of a vehicle / stability / handling / ride smoothness / development trends / rear steering axle
| [1] |
Pevzner YaM. Vehicle stability theory. Moscow: GNTI Mashgiz; 1947. (In Russ). |
| [2] |
Певзнер Я.М. Теория устойчивости автомобиля. М.: ГНТИ Машгиз, 1947. |
| [3] |
Gintsburg LL. Stability of the controlled movement of the car relative to the trajectory. Moscow: Avtomobilnaya promyshlennost. 1977. № 9. С. 27. (In Russ). |
| [4] |
Гинцбург Л.Л. Устойчивость управляемого движения автомобиля относительно траектории. М.: Автомобильная промышленность. 1977. № 9. С. 27. |
| [5] |
Karunin AL. Vehicle design. Chassis. Moscow: MAMI; 2000. (In Russ). |
| [6] |
Карунин А.Л. Конструкция автомобиля. Шасси. М.: МАМИ, 2000. |
| [7] |
Ostretsov AV. Car pendants. Moscow: MAMI; 2011. (In Russ). |
| [8] |
Острецов А.В. Автомобильные подвески. М.: МАМИ, 2011. |
| [9] |
Reimpel J. Car chassis. Moscow: Mashinostroenie; 1983. (In Russ). |
| [10] |
Раймпель Й. Шасси автомобиля. М.: Машиностроение, 1983. |
| [11] |
Antonov AS. Army vehicles. Design and calculation. Part 1. Moscow: Voenizdat; 1970. (In Russ). |
| [12] |
Антонов А.С. Армейские автомобили. Конструирование и расчет. Часть 1. М.: Воениздат, 1970. |
| [13] |
Vakhlamov VK. Cars. Design and calculation elements. Moscow: Akademiya; 2006. (In Russ). |
| [14] |
Вахламов В.К. Автомобили. Конструкция и элементы расчета. М.: Академия, 2006. |
| [15] |
Polungyan AA. Design of all-wheel drive wheeled vehicles. Vol. 1. Moscow: MGTU im NE Baumana; 1999. (In Russ). |
| [16] |
Полунгян А.А. Проектирование полноприводных колесных машин. Том 1. М.: МГТУ им. Н.Э. Баумана, 1999. |
| [17] |
Ersoy M. Chassis Handbook. Fachmedien, Wiesbaden: Springer; 2011. |
| [18] |
Ersoy M. Chassis Handbook. Fachmedien, Wiesbaden: Springer, 2011. |
| [19] |
Reimpell J. The Automotive Chassis: Engineering Principles. Warrendale: Society of Automotive Engineers Inc.; 2002. PA 15096-0001. |
| [20] |
Reimpell J. The Automotive Chassis: Engineering Principles. Warrendale: Society of Automotive Engineers Inc., 2002. PA 15096–0001. |
| [21] |
Buechner S. Enhanced Characterization of Suspension Systems for Virtual Chassis Development. Munich: BMW Group, Institute of Automotive Technology, Technical University of Munich, 2020. |
| [22] |
Porvatov I.N., Kristalny S.R. Classification and marking of cars. Methodical instructions for practical exercises in the discipline “Fundamentals of car design”. Moscow: MADI; 2010. (In Russ). |
| [23] |
Порватов И.Н., Кристальный С.Р. Классификация и маркировка автомобилей. Методические указания к практическим занятиям по дисциплине «Основы конструкции автомобилей». М.: МАДИ, 2010. |
| [24] |
Advancements in electric and hybrid electric vehicle technology SAE SP-1023. Warrendale: Society of Automotive Engineers, 1994. |
| [25] |
Zelenin SF, Molokov VM. Car Tutorial. Moscow: RusAvtokniga; 2000. (In Russ). |
| [26] |
Зеленин С.Ф., Молоков В.М. Учебник по устройству автомобиля. М.: РусьАвтокнига, 2000. |
| [27] |
Honda vs. Mazda 4-wheel-steering // Popular science. 1987. |
| [28] |
Operational and Design Features of the Steer Angle Dependent Four-Wheel Steering System, Eleventh International Technical Conference on Experimental Safety Vehicles, p. 404–415, May 12–15, 1987. |
| [29] |
Improved Handling and Stability Using Four-Wheel Steering, Eleventh International Technical Conference on Experimental Safety Vehicles, p. 415–425, May 12–15, 1987. |
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