Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2018, Cilt: 2 Sayı: 1, 17 - 21, 01.01.2018
https://doi.org/10.31127/tuje.330658

Öz

Kaynakça

  • 2017-18 Formula SAE® Rules. 2016. SAE International.
  • Altair University, (http://www.altairuniversity.com/wp-content/uploads/2011/10/RADIOSS_10.0_Reference_Guide2.pdf) [Access 14 July 2017].
  • Belingardi, G., Obradovic, J. (2010). ‘‘Design of the Impact Attenuator for a Formula Student Racing Car: Numerical Simulation of the Impact Crash Test.’’ Journal of the Serbian Society for Computational Mechanics, Vol. 4, No. 1, pp. 52-65.
  • Boria, S. (2010). ‘‘Behaviour of an Impact Attenuator for Formula SAE Car under Dynamic Loading.’’ International Journal of Vehicle Structures and Systems, Vol.2, No. 2, pp. 45-53.
  • Bouix, R., Viot, P., Lataillade, J., (2009). ‘‘Polypropylene foam behaviour under dynamic loadings: Strain rate, density and microstructure effects.’’ International Journal of Impact Engineering, Vol. 36, No. 2, pp. 329-342
  • Enomoto, H., Miyazaki, Y., Mizuno, H., Hirano, E., Kitayama, S., Yamazaki, K., Uota, N. (2007) ‘‘Development of CFRP Monocoque Front ImpactAttenuator for FSAE with VaRTM.’’ Society of Automotive Engineers of Japan, 2007-32-0120.
  • Impaxx, (https://www.fsaeonline.com/page.aspx?pageid=193613e4-fff1-4ea9-97ec-eb1c07fbe3c0) [Access 14 July 2017].
  • Munusamy, R., Barton, D. (2010).‘‘Lightweight impact crash attenuators for a small Formula SAE race car.’’ International Journal of Crashworthiness, Vol. 15, No.2, pp. 223-234.
  • Obradovic, J., Boria, S., Belingardi, G. (2012). ‘‘Lightweight design and crash analysis of composite frontal impact energy absorbing structures.’’ Composite Structures, Vol. 94, No. 2, pp. 423-430.
  • Slik, G., Vogel, G., Chawda, V., (2006). ‘‘Material Model Validation of a High Efficient Energy Absorbing Foam.’’ 5th LS-DYNA Forum, Ulm.
  • Untaroiu,C., Shin, J., Crandall, J., Fredriksson. R., Bostrom, O., Takahashi, Y., Akiyama, A., Okmoto, M., Kikuchi, Y. (2010). ‘‘Development and validation of pedestrian sedan bucks using finite-element simulations: a numerical investigation of the influence of vehicle automatic braking on the kinematics of the pedestrian involved in vehicle collisions.’’ International Journal of Crashworthiness, Vol. 15, No. 5, pp. 491–503
  • Yıldızhan, M., Efendioğlu B., Kaya, N., Öztürk, İ., Albak E., Öztürk, F. (2016). ‘‘Design of improved energy absorbing pads to reduce occupant injuries in vehicle side impact.’’ International Journal of Vehicle Design, Vol. 71, No. 1/2/3/4, pp. 174-190.

LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR

Yıl 2018, Cilt: 2 Sayı: 1, 17 - 21, 01.01.2018
https://doi.org/10.31127/tuje.330658

Öz

The impact attenuator is a safety component which is used to reduce the effects of frontal crash on driver, which can cause injuries. This article describes the design process of the impact attenuator with lightweight materials to satisfy the required weight reduction targets for Formula SAE racing car. This study is carried out as part of weight reduction studies on Formula SAE racing car. As a first step, the impact-absorbing structures and technical features were compared. In this step, it was decided to use EPP foam material with a density of 100 g/l as basic material to design a lightweight impact attenuator. Also, the design outlines of shape and analysis techniques for impact attenuator was defined in this step. Then, validation process was carried out for virtual model of 100 g/l EPP foam material. Foam material model was validated using referencestudy in literature. After model validation, a new impact attenuator was designed according to Formula SAE rules. It is 10% lighter than the standard model. The results show that selected EPP foam material can be used to design a lightweight impact attenuator for formula SAE race car to satisfy weight reduction requirements successfully. 

Kaynakça

  • 2017-18 Formula SAE® Rules. 2016. SAE International.
  • Altair University, (http://www.altairuniversity.com/wp-content/uploads/2011/10/RADIOSS_10.0_Reference_Guide2.pdf) [Access 14 July 2017].
  • Belingardi, G., Obradovic, J. (2010). ‘‘Design of the Impact Attenuator for a Formula Student Racing Car: Numerical Simulation of the Impact Crash Test.’’ Journal of the Serbian Society for Computational Mechanics, Vol. 4, No. 1, pp. 52-65.
  • Boria, S. (2010). ‘‘Behaviour of an Impact Attenuator for Formula SAE Car under Dynamic Loading.’’ International Journal of Vehicle Structures and Systems, Vol.2, No. 2, pp. 45-53.
  • Bouix, R., Viot, P., Lataillade, J., (2009). ‘‘Polypropylene foam behaviour under dynamic loadings: Strain rate, density and microstructure effects.’’ International Journal of Impact Engineering, Vol. 36, No. 2, pp. 329-342
  • Enomoto, H., Miyazaki, Y., Mizuno, H., Hirano, E., Kitayama, S., Yamazaki, K., Uota, N. (2007) ‘‘Development of CFRP Monocoque Front ImpactAttenuator for FSAE with VaRTM.’’ Society of Automotive Engineers of Japan, 2007-32-0120.
  • Impaxx, (https://www.fsaeonline.com/page.aspx?pageid=193613e4-fff1-4ea9-97ec-eb1c07fbe3c0) [Access 14 July 2017].
  • Munusamy, R., Barton, D. (2010).‘‘Lightweight impact crash attenuators for a small Formula SAE race car.’’ International Journal of Crashworthiness, Vol. 15, No.2, pp. 223-234.
  • Obradovic, J., Boria, S., Belingardi, G. (2012). ‘‘Lightweight design and crash analysis of composite frontal impact energy absorbing structures.’’ Composite Structures, Vol. 94, No. 2, pp. 423-430.
  • Slik, G., Vogel, G., Chawda, V., (2006). ‘‘Material Model Validation of a High Efficient Energy Absorbing Foam.’’ 5th LS-DYNA Forum, Ulm.
  • Untaroiu,C., Shin, J., Crandall, J., Fredriksson. R., Bostrom, O., Takahashi, Y., Akiyama, A., Okmoto, M., Kikuchi, Y. (2010). ‘‘Development and validation of pedestrian sedan bucks using finite-element simulations: a numerical investigation of the influence of vehicle automatic braking on the kinematics of the pedestrian involved in vehicle collisions.’’ International Journal of Crashworthiness, Vol. 15, No. 5, pp. 491–503
  • Yıldızhan, M., Efendioğlu B., Kaya, N., Öztürk, İ., Albak E., Öztürk, F. (2016). ‘‘Design of improved energy absorbing pads to reduce occupant injuries in vehicle side impact.’’ International Journal of Vehicle Design, Vol. 71, No. 1/2/3/4, pp. 174-190.
Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

Emre İsa Albak

Erol Solmaz

Necmettin Kaya

Ferruh Öztürk

Yayımlanma Tarihi 1 Ocak 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 2 Sayı: 1

Kaynak Göster

APA Albak, E. İ., Solmaz, E., Kaya, N., Öztürk, F. (2018). LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR. Turkish Journal of Engineering, 2(1), 17-21. https://doi.org/10.31127/tuje.330658
AMA Albak Eİ, Solmaz E, Kaya N, Öztürk F. LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR. TUJE. Ocak 2018;2(1):17-21. doi:10.31127/tuje.330658
Chicago Albak, Emre İsa, Erol Solmaz, Necmettin Kaya, ve Ferruh Öztürk. “LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR”. Turkish Journal of Engineering 2, sy. 1 (Ocak 2018): 17-21. https://doi.org/10.31127/tuje.330658.
EndNote Albak Eİ, Solmaz E, Kaya N, Öztürk F (01 Ocak 2018) LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR. Turkish Journal of Engineering 2 1 17–21.
IEEE E. İ. Albak, E. Solmaz, N. Kaya, ve F. Öztürk, “LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR”, TUJE, c. 2, sy. 1, ss. 17–21, 2018, doi: 10.31127/tuje.330658.
ISNAD Albak, Emre İsa vd. “LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR”. Turkish Journal of Engineering 2/1 (Ocak 2018), 17-21. https://doi.org/10.31127/tuje.330658.
JAMA Albak Eİ, Solmaz E, Kaya N, Öztürk F. LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR. TUJE. 2018;2:17–21.
MLA Albak, Emre İsa vd. “LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR”. Turkish Journal of Engineering, c. 2, sy. 1, 2018, ss. 17-21, doi:10.31127/tuje.330658.
Vancouver Albak Eİ, Solmaz E, Kaya N, Öztürk F. LIGHTWEIGHT FOAM IMPACT ATTENUATOR DESIGN FOR FORMULA SAE CAR. TUJE. 2018;2(1):17-21.
Flag Counter