REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS

Ali Fuat Ergenc; Alp Tekin Ergenc; Sefa Kale; Ilknur G. Sahin; Kerem Dagdelen; Volkan Pestelli; Orcun Yontem; Bahadir Kuday

EN

REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS

Abstract

Currently, automotive industry continues to strive for light weight vehicle for improving fuel efficiency and emission reduction. It is crucial to design vehicles with an optimum weight for a better performance of the car. In this field, which has boundaries with fixed standards and regulations, manufacturers continue to work on characteristics, structures and types of the material to develop new components, which have same safety specifications but cheaper and lighter than current products.

In this study, the strength analysis of a new design of an automotive brake pedal is presented. In order to reduce the weight, an alternative design, plasma welded two parts is studied instead of a monoblock gas arc welded brake pedal arm. The estimation of the design life of both current and the new pedal, a linear static stress analysis was performed via finite element method. Here, critical regions where the stress concentration occurs were determined. Stress-life method was used to estimate the fatigue life of the brake pedal. Based on the analysis results, design enhancement solutions were applied to extend the life of the new brake pedal. The computational analysis of the fatigue life of the pedal is validated utilizing a custom made test setup.

Keywords

: Brake pedal,strength analysis,fatigue life,finite element analysis

References

[1] Cerilles, J.T., Measurement and Control of Brake Pedal Feel Quality in Automobile Manufacturing, M.Sc Thesis, MIT, 2005
[2] R. Limpert, Brake Design and Safety, second ed., Society of Automotive engineers, 1999
[3] J. Setien,J., Gonzalez, J.J., Polanco J.A., Cracking diagnostics of brake pedals during press forming operations, Engineering Failure Analysis Vol. 7 pp. 69-74,2000
[4] Sapuan, S.M., A Conceptual Design of the Concurrent Engineering Design System for Polymeric-Based Composite Automotive Pedals, American Journal of Applied Sciences 2(2): 514-525, 2005
[5] Lee,S.H.,Park, T.W., Jung, I.H., Seo, J.H., Development of Automotive Braking Performance Analysis Program Considering Dynamic Characteristics, Trans. KSAE, Vol. 12, No. 2, pp. 175-181, 2004
[6] Kim, J. D., A Study on Load Analysis and Durability Test Condition Evaluation of Automotive Brake Pedal, M. S. Thesis, Changwan National University, 2004
[7] B. W. Noh, Y. W. Choi, S. I. Bae, "A Study on Load Analysis and Durability Test Condition of Automobile Brake Pedal ", Key Engineering Materials, Vols. 324-325, pp. 1273-1276, 2006
[8] Budynas-Nisbett, Shigley’s Mechanical Engineering Design, eight ed., Mcgraw Hill, 2006

Details

Primary Language

English

Subjects

Mechanical Engineering

Journal Section

Research Article

Authors

Ali Fuat Ergenc
İSTANBUL TEKNİK ÜNİVERSİTESİ
0000-0003-2782-5566
Türkiye

Alp Tekin Ergenc
Yildiz Technical University
Türkiye

Sefa Kale This is me
Yildiz Technical University
Türkiye

Ilknur G. Sahin This is me
TOYOTETSU TURKEY INC
Türkiye

Kerem Dagdelen This is me
TOYOTETSU TURKEY INC
Türkiye

Volkan Pestelli This is me
TOYOTETSU TURKEY INC
Türkiye

Orcun Yontem This is me
TOYOTETSU TURKEY INC
Türkiye

Bahadir Kuday This is me
TOYOTETSU TURKEY INC
Türkiye

Publication Date

August 30, 2017

Submission Date

April 6, 2017

Acceptance Date

July 29, 2017

Published in Issue

Year 2017 Volume: 1 Number: 2

IZ

https://izlik.org/JA69MF32JK

Cite

RIS / Bibtex

APA

Ergenc, A. F., Ergenc, A. T., Kale, S., Sahin, I. G., Dagdelen, K., Pestelli, V., Yontem, O., & Kuday, B. (2017). REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS. International Journal of Automotive Science And Technology, 1(2), 8-13. https://izlik.org/JA69MF32JK

AMA

1.Ergenc AF, Ergenc AT, Kale S, et al. REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS. IJASTECH. 2017;1(2):8-13. https://izlik.org/JA69MF32JK

Chicago

Ergenc, Ali Fuat, Alp Tekin Ergenc, Sefa Kale, et al. 2017. “REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS”. International Journal of Automotive Science And Technology 1 (2): 8-13. https://izlik.org/JA69MF32JK.

EndNote

Ergenc AF, Ergenc AT, Kale S, Sahin IG, Dagdelen K, Pestelli V, Yontem O, Kuday B (August 1, 2017) REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS. International Journal of Automotive Science And Technology 1 2 8–13.

IEEE

[1]A. F. Ergenc et al., “REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS”, IJASTECH, vol. 1, no. 2, pp. 8–13, Aug. 2017, [Online]. Available: https://izlik.org/JA69MF32JK

ISNAD

Ergenc, Ali Fuat - Ergenc, Alp Tekin - Kale, Sefa - Sahin, Ilknur G. - Dagdelen, Kerem - Pestelli, Volkan - Yontem, Orcun - Kuday, Bahadir. “REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS”. International Journal of Automotive Science And Technology 1/2 (August 1, 2017): 8-13. https://izlik.org/JA69MF32JK.

JAMA

1.Ergenc AF, Ergenc AT, Kale S, Sahin IG, Dagdelen K, Pestelli V, Yontem O, Kuday B. REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS. IJASTECH. 2017;1:8–13.

MLA

Ergenc, Ali Fuat, et al. “REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS”. International Journal of Automotive Science And Technology, vol. 1, no. 2, Aug. 2017, pp. 8-13, https://izlik.org/JA69MF32JK.

Vancouver

1.Ali Fuat Ergenc, Alp Tekin Ergenc, Sefa Kale, Ilknur G. Sahin, Kerem Dagdelen, Volkan Pestelli, Orcun Yontem, Bahadir Kuday. REDUCED WEIGHT AUTOMOTIVE BRAKE PEDAL TEST & ANALYSIS. IJASTECH [Internet]. 2017 Aug. 1;1(2):8-13. Available from: https://izlik.org/JA69MF32JK