Modelling and Vibration Analysis of Powertrain System

Mehmet Onur Genç; Burak Budak; Necmettin Kaya

doi:10.30939/ijastech..345094

Araştırma Makalesi

Modelling and Vibration Analysis of Powertrain System

Yıl 2018, Cilt: 2 Sayı: 1, 17 - 25, 30.03.2018

Mehmet Onur Genç Burak Budak Necmettin Kaya

https://doi.org/10.30939/ijastech..345094

Cited By: 6

Öz

Developments in vehicle
technology reveal that increased demands on vehicle comfort and fuel efficiency
in the vehicles require to design more efficient powertrain systems. Vibrations
originated in the engine need to be well optimized and controlled at desired
limits. For this purpose, modal analyis for vehicle components is the main
analysis method to evaluate the vibration behaviours. During vehicle design,
important parameters for vehicle vibration such as inertia and stiffness are
investigated and modified values to be replaced to get lower vibration values
by means of the modal analysis. In this study, the truck powertrain system is
modelled with real system values by the 1-D analysis software program and modal
analysis is performed to find mode shapes and vibration magnitudes of the
powertrain system components. Mode shapes of the clutch damper was investigated
by changing damper stiffness values and the other components variables were
taken constant to evaluate the stiffness effects on the system by modal
analysis.

Anahtar Kelimeler

vehicle vibration, modal analysis, powertrain system modelling, vibration simulation, powertrain system design, vehicle comfort, cluth damper spring stiffness

Kaynakça

REFERENCES 1. Smith, R., ‘Changing the Effective Mass to Control Resonance Problems.’ Sound and Vibrations, no:242, 14-17, 2001.
2. Acar, H. , Gul, C. ,Avcı, M., ‘Clutch Disc Torsionel Characteristics Optimization to Reduce Idle and Gear Rattle on Passenger Car.’ International Automotive Congress, Belgrade-Serbia, 22-28, 14-15 April, 2015.
3. Sofian, M., Hazry D, Ishak, I., ‘A Study of Vibration Analysis for Gearbox Casing Using Finite Element Analysis.’ Proceedings of International Conference on Applications and Design in Mechanical Engineering ,Malaysia, 10E1-10E7, 2009.
4. Brandt, A. ,Lagö, T. ,Ahlin, K. ,Tuma, J., ‘Main Principles and Limitations of Current Order Tracking Methods.’ Sound and Vibrations, no:281, 19-22, 2005. 5. Keeney, S. , Shih, S., ‘Prediction and Control of Heavy Duty Powertrain Torsional Vibration.’ Rockwell International, 1992-11-01, 922481, 1992.
6. Jadhav, S. 2014. ‘Powertrain NVH Analysis Including Clutch and Gear Dynamics.’ SAE Technical Paper Series.
7. Hwang, S. , Stout, J. , Ling, C., ‘Modeling and Analysis of Powertrain Torsional Response.’ SAE Technical Paper Series, 1998-02-23, 980276, 1998.
8. Miyasato, H. , Siminatto, G. , Junior, M., ‘Study of the Gear Rattle Phenomena in Automotive Powertrain Systems.’ 21st International Congress of Mechanical Engineering, Natal-Brazil, 24-28 October, 2011.
9. Mazzei, A. , Alzahabi, B. , Natarajan, L.K. 2002. ‘Analysis of Drivetrain Bending Response For a Heavy Truck Driveline.’ SAE Technical Paper Series.
10. Miyasato, H. , Siminatto, G. , Junior, M., ‘Linear Powertrain Models For NVH Phenomena Evaluation.’ International Symposium on Dynamic Problems of Mechanics’, Buzios-Brazil, 143-152, 17-22 February, 2013.
11. Skup, Z., ‘Damping of Vibrations in a Power Transmission System Containing a Friction Clutch.’ Journal of Theoretical and Applied Mechanics, 43(4), 875-892, 2005.
12. Gambino, C., ’Vibration Damping Via Acoustic Treatment Attached to Vehicle Body Panels.’ University of Windsor, Master thesis, Engineering department, Windsor-Canada, 2015. 13. M. Y. Wang, W. Zhao, and R. Manoj, “Numerical modelling and analysis of automotive transmission rattle,” Journal of Vibration and Control, Cilt no:8, 921–943, 2002.
14. P. Fietkau and B. Bertsche, “Influence of tribological and geometrical parameters on lubrication conditions and noise of gear transmissions,” Mechanism and Machine Theory, Cilt no: 69, 303–320, 2013.
15. C. Canudas-de-Wit, P. Tsiotras, E. Velenis, M. Basset, and G. Gissinger, “Dynamic friction models for road/tire longitudinal interaction,” Vehicle System Dynamics, no: 39, 189– 226, 2003. 16. D. Centea, H. Rahnejat, and M. T. Menday, “Non-linear multibodydynamic analysis for the study of clutch torsional vibrations (judder),” Applied Mathematical Modelling, no:25, 177–192, 2001.
17. G. Zhao, Z. Jiang, and L.Chen, “Linear analysis for performance of dual mass flywheel with centrifugal pendulum vibration absorbers system,” Telkomnika—Indonesian Journal of Electrical Engineering, no:11, 2371–2376, 2013.

Yıl 2018, Cilt: 2 Sayı: 1, 17 - 25, 30.03.2018

Mehmet Onur Genç Burak Budak Necmettin Kaya

https://doi.org/10.30939/ijastech..345094

Cited By: 6

Öz

Kaynakça

REFERENCES 1. Smith, R., ‘Changing the Effective Mass to Control Resonance Problems.’ Sound and Vibrations, no:242, 14-17, 2001.
2. Acar, H. , Gul, C. ,Avcı, M., ‘Clutch Disc Torsionel Characteristics Optimization to Reduce Idle and Gear Rattle on Passenger Car.’ International Automotive Congress, Belgrade-Serbia, 22-28, 14-15 April, 2015.
3. Sofian, M., Hazry D, Ishak, I., ‘A Study of Vibration Analysis for Gearbox Casing Using Finite Element Analysis.’ Proceedings of International Conference on Applications and Design in Mechanical Engineering ,Malaysia, 10E1-10E7, 2009.
4. Brandt, A. ,Lagö, T. ,Ahlin, K. ,Tuma, J., ‘Main Principles and Limitations of Current Order Tracking Methods.’ Sound and Vibrations, no:281, 19-22, 2005. 5. Keeney, S. , Shih, S., ‘Prediction and Control of Heavy Duty Powertrain Torsional Vibration.’ Rockwell International, 1992-11-01, 922481, 1992.
6. Jadhav, S. 2014. ‘Powertrain NVH Analysis Including Clutch and Gear Dynamics.’ SAE Technical Paper Series.
7. Hwang, S. , Stout, J. , Ling, C., ‘Modeling and Analysis of Powertrain Torsional Response.’ SAE Technical Paper Series, 1998-02-23, 980276, 1998.
8. Miyasato, H. , Siminatto, G. , Junior, M., ‘Study of the Gear Rattle Phenomena in Automotive Powertrain Systems.’ 21st International Congress of Mechanical Engineering, Natal-Brazil, 24-28 October, 2011.
9. Mazzei, A. , Alzahabi, B. , Natarajan, L.K. 2002. ‘Analysis of Drivetrain Bending Response For a Heavy Truck Driveline.’ SAE Technical Paper Series.
10. Miyasato, H. , Siminatto, G. , Junior, M., ‘Linear Powertrain Models For NVH Phenomena Evaluation.’ International Symposium on Dynamic Problems of Mechanics’, Buzios-Brazil, 143-152, 17-22 February, 2013.
11. Skup, Z., ‘Damping of Vibrations in a Power Transmission System Containing a Friction Clutch.’ Journal of Theoretical and Applied Mechanics, 43(4), 875-892, 2005.
12. Gambino, C., ’Vibration Damping Via Acoustic Treatment Attached to Vehicle Body Panels.’ University of Windsor, Master thesis, Engineering department, Windsor-Canada, 2015. 13. M. Y. Wang, W. Zhao, and R. Manoj, “Numerical modelling and analysis of automotive transmission rattle,” Journal of Vibration and Control, Cilt no:8, 921–943, 2002.
14. P. Fietkau and B. Bertsche, “Influence of tribological and geometrical parameters on lubrication conditions and noise of gear transmissions,” Mechanism and Machine Theory, Cilt no: 69, 303–320, 2013.
15. C. Canudas-de-Wit, P. Tsiotras, E. Velenis, M. Basset, and G. Gissinger, “Dynamic friction models for road/tire longitudinal interaction,” Vehicle System Dynamics, no: 39, 189– 226, 2003. 16. D. Centea, H. Rahnejat, and M. T. Menday, “Non-linear multibodydynamic analysis for the study of clutch torsional vibrations (judder),” Applied Mathematical Modelling, no:25, 177–192, 2001.
17. G. Zhao, Z. Jiang, and L.Chen, “Linear analysis for performance of dual mass flywheel with centrifugal pendulum vibration absorbers system,” Telkomnika—Indonesian Journal of Electrical Engineering, no:11, 2371–2376, 2013.

Toplam 14 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Makine Mühendisliği
Bölüm	Research Articles
Yazarlar	Mehmet Onur Genç Burak Budak Bu kişi benim Necmettin Kaya
Yayımlanma Tarihi	30 Mart 2018
Gönderilme Tarihi	22 Kasım 2017
Kabul Tarihi	1 Mart 2018
Yayımlandığı Sayı	Yıl 2018 Cilt: 2 Sayı: 1

Kaynak Göster

APA	Genç, M. O., Budak, B., & Kaya, N. (2018). Modelling and Vibration Analysis of Powertrain System. International Journal of Automotive Science And Technology, 2(1), 17-25. https://doi.org/10.30939/ijastech..345094
AMA	Genç MO, Budak B, Kaya N. Modelling and Vibration Analysis of Powertrain System. ijastech. Mart 2018;2(1):17-25. doi:10.30939/ijastech.345094
Chicago	Genç, Mehmet Onur, Burak Budak, ve Necmettin Kaya. “Modelling and Vibration Analysis of Powertrain System”. International Journal of Automotive Science And Technology 2, sy. 1 (Mart 2018): 17-25. https://doi.org/10.30939/ijastech. 345094.
EndNote	Genç MO, Budak B, Kaya N (01 Mart 2018) Modelling and Vibration Analysis of Powertrain System. International Journal of Automotive Science And Technology 2 1 17–25.
IEEE	M. O. Genç, B. Budak, ve N. Kaya, “Modelling and Vibration Analysis of Powertrain System”, ijastech, c. 2, sy. 1, ss. 17–25, 2018, doi: 10.30939/ijastech..345094.
ISNAD	Genç, Mehmet Onur vd. “Modelling and Vibration Analysis of Powertrain System”. International Journal of Automotive Science And Technology 2/1 (Mart 2018), 17-25. https://doi.org/10.30939/ijastech. 345094.
JAMA	Genç MO, Budak B, Kaya N. Modelling and Vibration Analysis of Powertrain System. ijastech. 2018;2:17–25.
MLA	Genç, Mehmet Onur vd. “Modelling and Vibration Analysis of Powertrain System”. International Journal of Automotive Science And Technology, c. 2, sy. 1, 2018, ss. 17-25, doi:10.30939/ijastech. 345094.
Vancouver	Genç MO, Budak B, Kaya N. Modelling and Vibration Analysis of Powertrain System. ijastech. 2018;2(1):17-25.