The level of competitiveness generated by the Formula Student, has generated a series of studies and technological advances in order to improve the performance of the single seaters so that they develop successfully in the aspect of the demands of the com
Main Article Content
Abstract
The level of competitiveness generated by the Formula Student, has generated a series of studies and technological advances in order to improve the performance of the single seaters so that they develop successfully in the aspect of the demands of the competition. This document details the study of the suspension system of a Formula Student electric competition single seater. This study involves an analysis of the kinematics and dynamics of the suspension system in which an analytical determination of movement, loads and vibrations is carried out by means of simulation software and mathematical calculations. The aim of the study is to evaluate the performance of the suspension according to the regulations of the competition, to establish parameters that improve the suspension system and at the same time the performance of the car in terms of comfort and safety.
Keywords
References
[1] IMechE. Formula student. Institution of Mechanical Engineers. [Online]. Available: https://goo.gl/Mkjf9n
[2] S. International. (2017) Formula sae rules. [Online]. Available: https://goo.gl/pSeNqe
[3] Formula Studente Germany. (2017) Formula student electric - world ranking list. Mazur Events+Media. [Online]. Available: https://goo.gl/2Q75AE
[4] A. Staniforth, Competition Car Suspension: Design, Construction, Tuning, Haynes, Ed., 1999. [Online]. Available: https://goo.gl/2jhg7s
[5] Rapid-Racer. (2016) Suspension. [Online]. Available: https://goo.gl/5Dpwjr
[6] W. F. Milliken and D. L. ;illiken, Race Car Vehicle Dynamics, S. International, Ed., 1995. [Online]. Available: https://goo.gl/iuhFqJ
[7] T. Pashley, How to Build Motorcycle-engined Racing Cars, V. P. Ltd, Ed., 2008. [Online]. Available: https://goo.gl/XdxRGM
[8] M. Royce and S. Royec, Learn & Compete: A Primer for Formula SAE, Formula Student and Forumula Hybrid Teams, R. Graphic, Ed., 2012. [Online]. Available: https://goo.gl/9rxtrG
[9] C. Smith, Tune to Win, C. S. Consulting, Ed., 1978. [Online]. Available: https://goo.gl/KaTkxq
[10] Milliken Research. (2018) Formula sae tire test consortium. Milliken Research Associates Incorporated. [Online]. Available: https://goo.gl/ErGrP5
[11] G. P. Pillajo Quijia, “Estudio cinemático del comportamiento de la suspensión de un prototipo de formula sae student eléctrico del equipo upm racing,” Master’s thesis, Universidad Politécnica de Madrid. España, 2012. [Online]. Available: https://goo.gl/aTb5mt [
12] P. De la fuente aguilera, “Análisis de la suspensión del vehículo monoplaza eléctrico UPM-03e del equipo UPM racing,” Universidad Politécnica de Madrid. España., 2016. [Online]. Available: https://goo.gl/PvvCV3
[13] S. Juvanteny Gimenez, “Estudio y diseño del sistema de suspensión para un prototipo de fórmula SAE,” Tesis de grado. Universidad Politécnica de Cataluña. España, 2015. [Online]. Available: https://goo.gl/q93zhh
[14] E. I. Efler Herranz, “Diseño de la suspensión trasera de un vehículo formula student,” Tesis de grado. Universidad Politécnica de Madrid. España, 2016. [Online]. Available: https://goo.gl/YkgNnv
[15] E. D. Flickinger, “Design and analysis of formula sae car suspension members,” Master’s thesis, California State University, Northridge. USA, 2014. [Online]. Available: https://goo.gl/tcUw5g
[16] L. Borg, “An approach to using finite element models to predict suspension member loads in a formula sae vehicle,” Master’s thesis, Virginia Polytechnic Institute and State University. USA, 2009. [Online]. Available: https://goo.gl/i8bV4B
[17] A. C. Cobi, “Design of a carbon fiber suspension system for fsae applications,” Bachelor thesis. Massachusetts Institute of Technology. USA, 2012. [Online]. Available: https://goo.gl/h1tQU3
[18] R. G. Budynas and J. K. Nisbett, Diseño en ingeniería mecánica de Shigley, 9th ed., M. Mc Graw-HILL, Ed., 2012. [Online]. Available: https://goo.gl/dumukn
[19] F. Aparicio Izquierdo, Teoría de los vehíulos automóviles, E. T. S. d. I. I. Universidad Politécnica de Madrid, Ed., 1995. [Online]. Available: https://goo.gl/M2EHoy
[20] J. Hurel, E. Teran, F. Flores, and B. Flores, “Modelo físico y matemático del sistema de suspensión de un cuarto de vehículo,” in 15th LACCEI International Multi-Conference for Engineering, Education, and Technology. USA, 2017. [Online]. Available: https://goo.gl/7yrFEK
[21] ´’OHLINS. (2017) Ttx25 mkii,. ´’OHLINS. Advanced Suspension Technology. [Online]. Available: https://goo.gl/Kra2dB
[22] A. Espejel Arroyo, “Rediseño de un sistema de suspensión para un auto de competencia mediante adams/car y Matlab,” Tesis de grado. Universidad Nacional Autónoma de México, 2015. [Online]. Available: https://goo.gl/sTxBg9
[23] M. Giariffa and S. Brisson, “Tech tip: Spring & dampers, episode four. a new understanding,” OPTIMUMG. Vehicle dynamics solutions, Tech. Rep., 2017. [Online]. Available: https://goo.gl/kVkg6o1
[2] S. International. (2017) Formula sae rules. [Online]. Available: https://goo.gl/pSeNqe
[3] Formula Studente Germany. (2017) Formula student electric - world ranking list. Mazur Events+Media. [Online]. Available: https://goo.gl/2Q75AE
[4] A. Staniforth, Competition Car Suspension: Design, Construction, Tuning, Haynes, Ed., 1999. [Online]. Available: https://goo.gl/2jhg7s
[5] Rapid-Racer. (2016) Suspension. [Online]. Available: https://goo.gl/5Dpwjr
[6] W. F. Milliken and D. L. ;illiken, Race Car Vehicle Dynamics, S. International, Ed., 1995. [Online]. Available: https://goo.gl/iuhFqJ
[7] T. Pashley, How to Build Motorcycle-engined Racing Cars, V. P. Ltd, Ed., 2008. [Online]. Available: https://goo.gl/XdxRGM
[8] M. Royce and S. Royec, Learn & Compete: A Primer for Formula SAE, Formula Student and Forumula Hybrid Teams, R. Graphic, Ed., 2012. [Online]. Available: https://goo.gl/9rxtrG
[9] C. Smith, Tune to Win, C. S. Consulting, Ed., 1978. [Online]. Available: https://goo.gl/KaTkxq
[10] Milliken Research. (2018) Formula sae tire test consortium. Milliken Research Associates Incorporated. [Online]. Available: https://goo.gl/ErGrP5
[11] G. P. Pillajo Quijia, “Estudio cinemático del comportamiento de la suspensión de un prototipo de formula sae student eléctrico del equipo upm racing,” Master’s thesis, Universidad Politécnica de Madrid. España, 2012. [Online]. Available: https://goo.gl/aTb5mt [
12] P. De la fuente aguilera, “Análisis de la suspensión del vehículo monoplaza eléctrico UPM-03e del equipo UPM racing,” Universidad Politécnica de Madrid. España., 2016. [Online]. Available: https://goo.gl/PvvCV3
[13] S. Juvanteny Gimenez, “Estudio y diseño del sistema de suspensión para un prototipo de fórmula SAE,” Tesis de grado. Universidad Politécnica de Cataluña. España, 2015. [Online]. Available: https://goo.gl/q93zhh
[14] E. I. Efler Herranz, “Diseño de la suspensión trasera de un vehículo formula student,” Tesis de grado. Universidad Politécnica de Madrid. España, 2016. [Online]. Available: https://goo.gl/YkgNnv
[15] E. D. Flickinger, “Design and analysis of formula sae car suspension members,” Master’s thesis, California State University, Northridge. USA, 2014. [Online]. Available: https://goo.gl/tcUw5g
[16] L. Borg, “An approach to using finite element models to predict suspension member loads in a formula sae vehicle,” Master’s thesis, Virginia Polytechnic Institute and State University. USA, 2009. [Online]. Available: https://goo.gl/i8bV4B
[17] A. C. Cobi, “Design of a carbon fiber suspension system for fsae applications,” Bachelor thesis. Massachusetts Institute of Technology. USA, 2012. [Online]. Available: https://goo.gl/h1tQU3
[18] R. G. Budynas and J. K. Nisbett, Diseño en ingeniería mecánica de Shigley, 9th ed., M. Mc Graw-HILL, Ed., 2012. [Online]. Available: https://goo.gl/dumukn
[19] F. Aparicio Izquierdo, Teoría de los vehíulos automóviles, E. T. S. d. I. I. Universidad Politécnica de Madrid, Ed., 1995. [Online]. Available: https://goo.gl/M2EHoy
[20] J. Hurel, E. Teran, F. Flores, and B. Flores, “Modelo físico y matemático del sistema de suspensión de un cuarto de vehículo,” in 15th LACCEI International Multi-Conference for Engineering, Education, and Technology. USA, 2017. [Online]. Available: https://goo.gl/7yrFEK
[21] ´’OHLINS. (2017) Ttx25 mkii,. ´’OHLINS. Advanced Suspension Technology. [Online]. Available: https://goo.gl/Kra2dB
[22] A. Espejel Arroyo, “Rediseño de un sistema de suspensión para un auto de competencia mediante adams/car y Matlab,” Tesis de grado. Universidad Nacional Autónoma de México, 2015. [Online]. Available: https://goo.gl/sTxBg9
[23] M. Giariffa and S. Brisson, “Tech tip: Spring & dampers, episode four. a new understanding,” OPTIMUMG. Vehicle dynamics solutions, Tech. Rep., 2017. [Online]. Available: https://goo.gl/kVkg6o1