Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation

Volume: 6 Number: 1 March 1, 2017
Amir Sharifi Miavaghi , Haleh Kangarlou
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Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation

Abstract

Bu çalışma ile, yüksek temas basınçları ve düşük hız koşullarında çelik alüminyum alaşım sistemi için sürtünme katsayısı değerleri elde edilmiştir. Bu amaca yönelik olarak, daha önce literatürde sunulan sürtünme test cihazlarının yeni bir düzenlemesi yapılmış, yüzey pürüzlülüğünün ve uygulanan normal yükün sürtünme katsayısı üzerindeki etkileri araştırılmıştır. Sonuçlar açıkça göstermektedir ki, sürtünme katsayısı, uygulanan normal yükten oldukça etkilenmekte ve yük arttıkça azalmaktadır. Ayrıca, yüzey pürüzlülüğü sürtünme katsayısını da etkilemektedir. Ancak etkisi, uygulanan normal yük kadar önemli değildir. Son olarak literatürde önerilen teorik sürtünme modelleri, bu çalışmanın deneysel modeli ile karşılaştırılmıştır

Keywords

Deneysel modelleme,Temas basınçları,Katsayı değeri,Aşırı plastik deformasyon,Coulomb yasası

References

  1. 1. Ulutan, M., et al., (2010). Effect of Different Surface Treatment Methods on the Friction and Wear Behavior of AISI 4140 Steel. 26(3), 251-257.
  2. 2. K.M. Adel, A.S. Dhia, and M.J. Ghazali, (2009). the effect of laser surface hardening on the wear and friction characteristics of acicular bainitic ductile iron. 4(2), 5.
  3. 3. Johnson, K. and R. Cameron, (1967). Fourth paper: shear behaviour of elastohydrodynamic oil films at high rolling contact pressures. 182(1), 307-330.
  4. 4. Patil, B., U. Chakkingal, and P. Kumar, (2008). influence of friction in equal channel angular pressing – a study with simulation. 5(13-15.
  5. 5. Eskandarzade, M., Masoumi, A., Faraji, Gh., Mohammadpour, M., Sabrina Yan, X, (2017). A new designed incremental high pressure torsion process for producing long nanostructured rod samples. 695, 1539- 1546.
  6. 6. Eskandarzade, M., Masoumi, A., Faraji,. Gh. (2017) Numrical and analytical investigation of an ultrasonic assisted ECAP process. 2(2), 166-183.
  7. 7. Mehdi Eskandarzade, A.M., Ghader Faraji, (2016). Numerical and analytical investigation of an ultrasonic assisted ECAP process. 2(2), 18.
  8. 8. Lai, X., et al., (2012). An experimental method for characterizing friction properties of sheet metal under high contact pressure. 289(0), 82-94.
  9. 9. Pougis, A., et al., (2013). Dry friction of steel under high pressure in quasi-static conditions. 67(0), 27-35.
  10. 10. Spijker, P., G. Anciaux, and J.-F. Molinari, (2011). Dry sliding contact between rough surfaces at the atomistic scale. 44(2), 279-285.

Details

Primary Language

Turkish

Subjects

-

Journal Section

-

Authors

Amir Sharifi Miavaghi This is me

Haleh Kangarlou This is me

Publication Date

March 1, 2017

Submission Date

-

Acceptance Date

-

Published in Issue

Year 2017 Volume: 6 Number: 1

IZ

https://izlik.org/JA86XT48RF

Cite

RIS / Bibtex
APA
Miavaghi, A. S., & Kangarlou, H. (2017). Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 6(1), 10-16. https://izlik.org/JA86XT48RF
AMA
1.Miavaghi AS, Kangarlou H. Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation. DUFED. 2017;6(1):10-16. https://izlik.org/JA86XT48RF
Chicago
Miavaghi, Amir Sharifi, and Haleh Kangarlou. 2017. “Experimental Modeling of Dry Friction Coefficient Between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation”. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi 6 (1): 10-16. https://izlik.org/JA86XT48RF.
EndNote
Miavaghi AS, Kangarlou H (March 1, 2017) Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi 6 1 10–16.
IEEE
[1]A. S. Miavaghi and H. Kangarlou, “Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation”, DUFED, vol. 6, no. 1, pp. 10–16, Mar. 2017, [Online]. Available: https://izlik.org/JA86XT48RF
ISNAD
Miavaghi, Amir Sharifi - Kangarlou, Haleh. “Experimental Modeling of Dry Friction Coefficient Between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation”. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi 6/1 (March 1, 2017): 10-16. https://izlik.org/JA86XT48RF.
JAMA
1.Miavaghi AS, Kangarlou H. Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation. DUFED. 2017;6:10–16.
MLA
Miavaghi, Amir Sharifi, and Haleh Kangarlou. “Experimental Modeling of Dry Friction Coefficient Between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation”. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 6, no. 1, Mar. 2017, pp. 10-16, https://izlik.org/JA86XT48RF.
Vancouver
1.Amir Sharifi Miavaghi, Haleh Kangarlou. Experimental Modeling of Dry Friction Coefficient between Steel and Aluminum Alloy in the Condition of Severe Plastic Deformation. DUFED [Internet]. 2017 Mar. 1;6(1):10-6. Available from: https://izlik.org/JA86XT48RF

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