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AA 2024 ALAŞIMININ ARTIŞLI ŞEKİLLENDİRİLEBİLİRLİĞİNİN İNCELENMESİ - INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY

Year 2015, , 49 - 58, 06.07.2015
https://doi.org/10.18466/cbufbe.03498

Abstract

AA 2024 ALAŞIMININ ARTIŞLI ŞEKİLLENDİRİLEBİLİRLİĞİNİN İNCELENMESİ

Ürün ve tüketim hacmi geniş olan sac metal şekillendirme sektörü, ürün başına maliyeti düşürmesi sebebiyle geleneksel sac metal şekillendirme yöntemlerini kullanmaktadır. Ancak sac metal sektöründeki giderek artan ve farklılık gösteren az sayıdaki talepleri daha ekonomik bir şekilde karşılayabilmek için artışlı şekillendirme yöntemi (AŞY) son yıllarda ön plana çıkmaktadır. Bu çalışmada; 1 mm kalınlığındaki AA 2024-T3 levhalarda devir 500 dev/dak, takım çapı 10 mm ve yatay ilerleme 1000 mm/dak ile artışlı şekillendirme gerçekleştirilmiştir. Ayrıca işlem esnasında kullanılan iki farklı yağında etkisi incelenmiştir. Bu  yağ çeşitlerinin farklılık oluşturmadığı görülmüştür. Üç farklı takım yolu denenmiş olup, bunlardan 0,5 mm dikey ilerlemeli 1. takım yolunda en başarılı sonuç elde edilmiştir. Ürün maliyeti açısından da, 500 adetin altındaki üretimlerde, AŞY kalıpla üretim yöntemine göre daha ekonomiktir.


INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF   AA 2024 ALLOY

Sheet metal forming industries which have a large product and consumption volume use conventional sheet metal forming techniques due to low production cost per unit. However, in order to afford increasing economical demands  and demands which has few differences in more economical way, incremental sheet forming (ISF) stand out in recent years in the sheet metal industry. In this study, incremental sheet forming has been performed by 500 RPM as the spindle speed, 10 mm as the tool diameter, 1000 mm/min as the feed rate with AA 2024-T3 sheets which are 1 mm thickness. In addition, two different lubricant kinds used in the process are investigated. It has been seen that these lubricant kinds haven’t done any differences. Three different tool paths have been tried and best result has been achieved with  the first tool path which has  0.5 mm step down values. From the point of  the product cost, under number of 500 manufacturing, ISF is more economic than molding.


References

  • Nimbalkar D.H. et al. ‘‘Review of Incremental Forming of Sheet Metal Components’’ Int. Journal of Engineering Research and Applications Vol. 3, Issue 5, Sep-Oct 2013, pp.39-51
  • Ceretti, E., Giardini, C., Attanasio, A., (2004) ‘‘Experimental and simulative results in sheet incremental forming on CNC machines’’, Journal of Materials Processing Technology, 152:176-18.
  • Le Van Sy, ‘‘Modeling of Single Point Incremental Forming Process For Metal and Polymeric Sheet’’ PhD thesis University Of Pauda-2009
  • J. Jeswiet, F. Micari , G. Hirt, A. Bramley, J. Duflou , J. Allwood ‘‘Asymmetric Single Point Incremental Forming of Sheet Metal’’ CIRP Annals manufacturing technology,2005,54(2),623-649
  • M. Ham & J. Jeswiet, “Single Point Incremental Forming and the Forming Criteria
  • for AA3003’’ Annals of the CIRP Vol. 55/1/2006
  • G. Ambrogio , L. Filice, F. Gagliardi , ‘‘Formability of lightweight alloys by hot incremental sheet forming’’ Materials and Design 34 (2012) 501–508
  • C. Bulut, ‘‘Artışlı Şekillendirme ile AA 5754 Sacın Biçimlendirilmesi ve Teorik Modellenmesi’’ Karabük Üniversitesi Fen Bilimleri Enstitüsü,Makine Eğitimi Anabilim Dalı, Bilim Uzmanlığı Tezi, 2008
  • Z. Liu , P.H. Chong, A.N. Butt, P. Skeldon, G.E. Thompson ‘‘Corrosion mechanism of laser-melted AA 2014 and AA 2024 alloys’’ Applied Surface Science 247 (2005) 294–299

INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY

Year 2015, , 49 - 58, 06.07.2015
https://doi.org/10.18466/cbufbe.03498

Abstract

Sheet metal forming industries which have a large product and consumption volume use conventional sheet metal forming techniques due to low production cost per unit. However, in order to afford increasing economical demands and demands which has few differences in more economical way, incremental sheet forming (ISF) stand out in recent years in the sheet metal industry. In this study, incremental sheet forming has been performed by 500 RPM as the spindle speed, 10 mm as the tool diameter, 1000 mm/min as the feed rate with AA 2024-T3 sheets which are 1 mm thickness. In addition, two different lubricant kinds used in the process are investigated. It has been seen that these lubricant kinds haven’t done any differences. Three different tool paths have been tried and best result has been achieved with the first tool path which has 0.5 mm step down values. From the point of the product cost, under number of 500 manufacturing, ISF is more economic than molding

References

  • Nimbalkar D.H. et al. ‘‘Review of Incremental Forming of Sheet Metal Components’’ Int. Journal of Engineering Research and Applications Vol. 3, Issue 5, Sep-Oct 2013, pp.39-51
  • Ceretti, E., Giardini, C., Attanasio, A., (2004) ‘‘Experimental and simulative results in sheet incremental forming on CNC machines’’, Journal of Materials Processing Technology, 152:176-18.
  • Le Van Sy, ‘‘Modeling of Single Point Incremental Forming Process For Metal and Polymeric Sheet’’ PhD thesis University Of Pauda-2009
  • J. Jeswiet, F. Micari , G. Hirt, A. Bramley, J. Duflou , J. Allwood ‘‘Asymmetric Single Point Incremental Forming of Sheet Metal’’ CIRP Annals manufacturing technology,2005,54(2),623-649
  • M. Ham & J. Jeswiet, “Single Point Incremental Forming and the Forming Criteria
  • for AA3003’’ Annals of the CIRP Vol. 55/1/2006
  • G. Ambrogio , L. Filice, F. Gagliardi , ‘‘Formability of lightweight alloys by hot incremental sheet forming’’ Materials and Design 34 (2012) 501–508
  • C. Bulut, ‘‘Artışlı Şekillendirme ile AA 5754 Sacın Biçimlendirilmesi ve Teorik Modellenmesi’’ Karabük Üniversitesi Fen Bilimleri Enstitüsü,Makine Eğitimi Anabilim Dalı, Bilim Uzmanlığı Tezi, 2008
  • Z. Liu , P.H. Chong, A.N. Butt, P. Skeldon, G.E. Thompson ‘‘Corrosion mechanism of laser-melted AA 2014 and AA 2024 alloys’’ Applied Surface Science 247 (2005) 294–299
There are 9 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Halil Bayram

Nurullah Köksal This is me

Publication Date July 6, 2015
Published in Issue Year 2015

Cite

APA Bayram, H., & Köksal, N. (2015). INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, 11(1), 49-58. https://doi.org/10.18466/cbufbe.03498
AMA Bayram H, Köksal N. INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY. CBUJOS. July 2015;11(1):49-58. doi:10.18466/cbufbe.03498
Chicago Bayram, Halil, and Nurullah Köksal. “INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11, no. 1 (July 2015): 49-58. https://doi.org/10.18466/cbufbe.03498.
EndNote Bayram H, Köksal N (July 1, 2015) INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11 1 49–58.
IEEE H. Bayram and N. Köksal, “INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY”, CBUJOS, vol. 11, no. 1, pp. 49–58, 2015, doi: 10.18466/cbufbe.03498.
ISNAD Bayram, Halil - Köksal, Nurullah. “INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 11/1 (July 2015), 49-58. https://doi.org/10.18466/cbufbe.03498.
JAMA Bayram H, Köksal N. INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY. CBUJOS. 2015;11:49–58.
MLA Bayram, Halil and Nurullah Köksal. “INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, vol. 11, no. 1, 2015, pp. 49-58, doi:10.18466/cbufbe.03498.
Vancouver Bayram H, Köksal N. INVESTIGATION OF INCREMENTAL SHEET FORMABILITY OF AA 2024 ALLOY. CBUJOS. 2015;11(1):49-58.