Development of test methodology to reveal effects of changes in damping capacity of damper on ABS brakıng performance
Öz
This paper aims to develop ABS test methodology for determining the effects of changes in damping capacity of shock absorber on ABS braking performance of a passenger vehicle. For this aim, the performance tests of ABS are separately conducted on wet and slippery surfaces of rough road by using three different damper stages. Thereby, the effects of all stages of damper on ABS braking performance are individually investigated. The test results show that this test methodology provides the effects of changes in damping capacity of damper on braking performance of ABS to be occurred in accordance with the changes in braking distance.
Anahtar Kelimeler
Kaynakça
- . Bosch, R. (1999). Driving-Safety Systems. 2nd updated and expended edition. SAE, USA.
- . Austin, L. and Morrey, D. (2000). Recent advances in antilock braking systems and traction control systems. Proceedings of the institution of mechanical engineers, Part D: J. Automobile Engineering, 222, 625-638.
- . Garrick, J.F., Flick, M. and Garrott, W.R. (1999). Final Report: A Test Track Study of Lightweight ABS Performance over a Broad Range of Surfaces and Maneuvers. U.S. Department of Transportation, NHTSA/NRD-22.
- . Nigam, S. (1993). Modeling, Simulation and Response Analysis of Antilock Brake System. Ph.D. Dissertation, West Virginia University.
- . Bera, T.K., Bhattacharya, K. and Samantaray, A.K. (2011). Evaluation of Antilock Braking System With an Integrated Model of Full Vehicle System Dynamics. Simulation Modelling Practice and Theory, 19, 2131–2150.
- . Vaculín, O., Svoboda, J., Valášek, M. and Steinbauer, P. (2008). Influence of Deteriorated Suspension Components on ABS Braking. Vehicle System Dynamics (Supplement), 46, 969–97.
- . Calvo, J.A., Diaz, V., San Roman, J.L. and García-Pozuelo, D. (2008). Influence of Shock Absorber Wearing on Vehicle Brake Performance. International Journal of Automotive Technology, 9(4), 467−472.
- . Lin, J.S. and Ting, W.E. 2007. Nonlinear control design of anti-lock braking systems with assistance of active suspension. IET Control Theory Applications, , 1(1), 343-348.
- . Niemz, T. 2006. Reducing braking distance by control of semi-active suspension. Ph.D. Thesis, Technischen Universitat Darmstadt, Germany.
- . Niemz, T., Reul, M. and Winner, H. 2007. A New Slip Controller to Reduce Braking Distance by Means of Active Shock Absorbers. 14th Asia Pacific Automotive Engineering Conference, Society of Automotive Engineers.
- . Reul, M. and Winner, H. 2009. Enhanced Braking Performance by Integrated ABS and Semi-Active Damping Control. Proceedings of ESV 2009, Stuttgart.
- . Adams, D.E., Janas, J., Goyal S., Braun,C., Seeniraj, G. and Bono, R.W. 2006. Lab Lessons Learned—Part 2: Road Quality Determınatıon Using Vehicle Data. Experimental Techniques, 30 (1), 61–66.
- . Dixon, J.C. 2007. The Shock Absorber Handbook. 2nd Edition. John Wiley & Sons, England.
- . Hunt, B., Lipsman, R., Rosenberg, K., Coombes, K., Osborn, J. and Stuck, G.A. 2001. Guide to MATLAB for beginners and experienced users. Cambridge University Press. Cambridge, United Kingdom.
Yıl 2016,
Cilt: 5 Sayı: 4, 136 - 147, 27.12.2016
Öz
Kaynakça
- . Bosch, R. (1999). Driving-Safety Systems. 2nd updated and expended edition. SAE, USA.
- . Austin, L. and Morrey, D. (2000). Recent advances in antilock braking systems and traction control systems. Proceedings of the institution of mechanical engineers, Part D: J. Automobile Engineering, 222, 625-638.
- . Garrick, J.F., Flick, M. and Garrott, W.R. (1999). Final Report: A Test Track Study of Lightweight ABS Performance over a Broad Range of Surfaces and Maneuvers. U.S. Department of Transportation, NHTSA/NRD-22.
- . Nigam, S. (1993). Modeling, Simulation and Response Analysis of Antilock Brake System. Ph.D. Dissertation, West Virginia University.
- . Bera, T.K., Bhattacharya, K. and Samantaray, A.K. (2011). Evaluation of Antilock Braking System With an Integrated Model of Full Vehicle System Dynamics. Simulation Modelling Practice and Theory, 19, 2131–2150.
- . Vaculín, O., Svoboda, J., Valášek, M. and Steinbauer, P. (2008). Influence of Deteriorated Suspension Components on ABS Braking. Vehicle System Dynamics (Supplement), 46, 969–97.
- . Calvo, J.A., Diaz, V., San Roman, J.L. and García-Pozuelo, D. (2008). Influence of Shock Absorber Wearing on Vehicle Brake Performance. International Journal of Automotive Technology, 9(4), 467−472.
- . Lin, J.S. and Ting, W.E. 2007. Nonlinear control design of anti-lock braking systems with assistance of active suspension. IET Control Theory Applications, , 1(1), 343-348.
- . Niemz, T. 2006. Reducing braking distance by control of semi-active suspension. Ph.D. Thesis, Technischen Universitat Darmstadt, Germany.
- . Niemz, T., Reul, M. and Winner, H. 2007. A New Slip Controller to Reduce Braking Distance by Means of Active Shock Absorbers. 14th Asia Pacific Automotive Engineering Conference, Society of Automotive Engineers.
- . Reul, M. and Winner, H. 2009. Enhanced Braking Performance by Integrated ABS and Semi-Active Damping Control. Proceedings of ESV 2009, Stuttgart.
- . Adams, D.E., Janas, J., Goyal S., Braun,C., Seeniraj, G. and Bono, R.W. 2006. Lab Lessons Learned—Part 2: Road Quality Determınatıon Using Vehicle Data. Experimental Techniques, 30 (1), 61–66.
- . Dixon, J.C. 2007. The Shock Absorber Handbook. 2nd Edition. John Wiley & Sons, England.
- . Hunt, B., Lipsman, R., Rosenberg, K., Coombes, K., Osborn, J. and Stuck, G.A. 2001. Guide to MATLAB for beginners and experienced users. Cambridge University Press. Cambridge, United Kingdom.
Toplam 14 adet kaynakça vardır.
Ayrıntılar
| Bölüm | Article |
|---|---|
| Yazarlar | |
| Yayımlanma Tarihi | 27 Aralık 2016 |
| Gönderilme Tarihi | 31 Ağustos 2016 |
| Yayımlandığı Sayı | Yıl 2016 Cilt: 5 Sayı: 4 |