Research Article
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Year 2019, , 62 - 67, 20.06.2019
https://doi.org/10.26701/ems.422299

Abstract

References

  • Hirsch, J. (2011). Aluminium in Innovative Light-Weight Car Design. Materials Transactions, 52(5): 818-824, DOI:10.2320/matertrans.L-MZ201132.
  • Altınok, E., Kayserili, H., Mert A., Altınel, S.A. (2017). Lightweight Door Ring Solution in Car Body Development. International Journal of Advances on Automotive and Technology, 1(3): 131-136, DOI: 10.15659/ijaat.17.07.529.
  • Başer, T. A. (2013). Alüminyum alaşımları ve otomotiv endüstrisinde kullanımı. Mühendis ve Makina, 53(635): 51-58.
  • Mallick, P.K. (2010). Materials, Design and Manufacturing for Lightweight Vehicles, Cambrighe, UK: Woodhead Publishing Limited.
  • Wu, P., Ma, Q., Luo, Y., Tao, C. (2016). Topology Optimization Design of Automotive Engine Bracket. Energy and Power Engineering, 8(4): 230-235, DOI: 10.4236/epe.2016.84021.
  • KG, Rheinfelden Alloys GmbH & Co., “Primary Aluminium Alloys for Pressure Die Casting,” A company of the Aluminium Rheinfelden Group, Friedrichstraße 80.
  • Chaudhury, S.K., Apelian, D. (2006). Fluidized Bed Heat Treatment of Cast Al-Si-Cu-Mg Alloys. Metallurgical and Materials Transactions A, 37A: 2295-2311.
  • M. Hartlieb, (2013). Aluminium Alloys For Structural Die Casting. Die Casting Engineer, 41.
  • Kurisu, F., Miyauchi, K. (2004). Application of ADAMS Mechanism Analysis Software To Powertrains. Mazda Technical Review, 22: 44-49.
  • Aksel, L., Efendioğlu, Ş., Yeni H., Bilge, Ç. (2016). Weight Reduction Study on BIW by Using Boron Alloyed Hot Stamping Solution of Front Frame Rail Instead Conventional HSS or AHSS Applications. in International Conference on Advanced Technology & Sciences.
  • Joost, W. J., Krajewski, P.E. (2017). Towards magnesium alloys for high-volume automotive applications. Scripta Materialia, 128: 107-112, DOI: 10.1016/j.scriptamat.2016.07.035.

Aluminium High Pressure Die Casting Application on Rear Frame Rails

Year 2019, , 62 - 67, 20.06.2019
https://doi.org/10.26701/ems.422299

Abstract

Due to the highly competitive environment in automotive industry and environmental restrictions, car manufacturers tend to use higher mechanical properties but better performance in lightweighting instead of traditional structural materials such as steel. Aluminium alloys are a good example of this application since they are 3 times lighter than steel. Aluminium is proposed to use in car body structure design because of its high performance of durability, and in addition with proper geometry and heat treatment the mechanical properties will be also valid for structural parts.  Using casting as a process enables to make topology optimization and having more complex shapes that has better strength but less weight with respect to sheet metal stamping.
Rear rail reinforcement support bracket is one of the most suitable component of body in white, where topologically optimized aluminium die casted part could be applied. In a conventional reinforcement support bracket, more than one steel stamped parts are used to have desired performance of stiffness and durability which results in much more complex structures in terms of design, formability and assembly. 
In this study, a new part designed and produced by high pressure casting method to obtain the same performance of current solution. Additionally to obtain better mechanical properties different heat treatments have been tested and the optimum heat treatment cycle has been determined. The new design has been compared to current one with virtual validation tools and the results have been given as comparison. 

References

  • Hirsch, J. (2011). Aluminium in Innovative Light-Weight Car Design. Materials Transactions, 52(5): 818-824, DOI:10.2320/matertrans.L-MZ201132.
  • Altınok, E., Kayserili, H., Mert A., Altınel, S.A. (2017). Lightweight Door Ring Solution in Car Body Development. International Journal of Advances on Automotive and Technology, 1(3): 131-136, DOI: 10.15659/ijaat.17.07.529.
  • Başer, T. A. (2013). Alüminyum alaşımları ve otomotiv endüstrisinde kullanımı. Mühendis ve Makina, 53(635): 51-58.
  • Mallick, P.K. (2010). Materials, Design and Manufacturing for Lightweight Vehicles, Cambrighe, UK: Woodhead Publishing Limited.
  • Wu, P., Ma, Q., Luo, Y., Tao, C. (2016). Topology Optimization Design of Automotive Engine Bracket. Energy and Power Engineering, 8(4): 230-235, DOI: 10.4236/epe.2016.84021.
  • KG, Rheinfelden Alloys GmbH & Co., “Primary Aluminium Alloys for Pressure Die Casting,” A company of the Aluminium Rheinfelden Group, Friedrichstraße 80.
  • Chaudhury, S.K., Apelian, D. (2006). Fluidized Bed Heat Treatment of Cast Al-Si-Cu-Mg Alloys. Metallurgical and Materials Transactions A, 37A: 2295-2311.
  • M. Hartlieb, (2013). Aluminium Alloys For Structural Die Casting. Die Casting Engineer, 41.
  • Kurisu, F., Miyauchi, K. (2004). Application of ADAMS Mechanism Analysis Software To Powertrains. Mazda Technical Review, 22: 44-49.
  • Aksel, L., Efendioğlu, Ş., Yeni H., Bilge, Ç. (2016). Weight Reduction Study on BIW by Using Boron Alloyed Hot Stamping Solution of Front Frame Rail Instead Conventional HSS or AHSS Applications. in International Conference on Advanced Technology & Sciences.
  • Joost, W. J., Krajewski, P.E. (2017). Towards magnesium alloys for high-volume automotive applications. Scripta Materialia, 128: 107-112, DOI: 10.1016/j.scriptamat.2016.07.035.
There are 11 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering
Journal Section Research Article
Authors

İbrahim Özbay

Tamer Aydıner This is me

Gürkan Yilmazoglu This is me

Hafize Celik This is me

Levent Aksel This is me

Harun Yeni This is me

Metehan Bayramoglu This is me

Erdem Aydogmus This is me

Publication Date June 20, 2019
Acceptance Date April 21, 2019
Published in Issue Year 2019

Cite

APA Özbay, İ., Aydıner, T., Yilmazoglu, G., Celik, H., et al. (2019). Aluminium High Pressure Die Casting Application on Rear Frame Rails. European Mechanical Science, 3(2), 62-67. https://doi.org/10.26701/ems.422299

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