Araştırma Makalesi
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Yıl 2013, Cilt: 26 Sayı: 4, 597 - 609, 02.01.2014

Öz

Kaynakça

  • J. F. Archard, Wear Theory and Mechanisms, Wear Control Handbook, M. B. Peterson and W.O. Winer, eds., ASME, New York, NY, 35- 80, (1980).
  • D. Tabor, Friction and Wear – Developments Over the Last 50 Years, Keynote Address, Proc. International Conf. Tribology – Friction, Lubrication and Wear, 50 Years On, London, Inst. Mech. Eng., 157-172, (1987).
  • S. T. Oktay, N. P. Suh, Wear Debris Formation and Agglomeration, ASME Journal of Tribology, 114: 379- 393, (1992).
  • N. Saka, M. J. Liou, N. P. Suh, The role of Tribology in Electrical Cotact Phenomena, Wear, 100: 77-105, (1984).
  • N. P. Suh, H. C. Sin, On the Genesis of Friction and Its Effect on Wear, Solid Contact and Lubrication, H. S. Cheng and L. M. Keer, ed., ASME, New York, NY, AMD- 39: 167-183, (1980).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Experimental Investigation of the effect of System Rigidity on Wear and Friction- Induced Vibrations, ASME Journal of Lubrication Technology, 105: 206- 211, (1983).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 1: Effect of Normal Load and System Stiffness, ASME Journal of Tribology, 106: 54-58, (1984).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 2: Vibrations Induced by Dry Friction, ASME Journal of Tribology, 106: 59- 64, (1984).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 3: Wear Model, ASME Journal of Tribology, 106: 65-69 (1984).
  • J. W. Lin, M. D. Bryant, Reduction in Wear rate of Carbon Samples Sliding Against Wavy Copper Surfaces, ASME Journal of Tribology, 118: 116-124 (1996).
  • K. C. Ludema, Friction, Wear, Lubrication A Textbook in Tribology, CRC press, London, UK. (1996).
  • E. J. Berger, C. M. Krousgrill, F. Sadeghi, Stability of Sliding in a System Excited by a Rough Moving Surface, ASME, 119: 672- 680, (1997).
  • B. Bhushan, Principle and Applications of Tribology, John Wiley & Sons, Inc., New York, (1999).
  • B. Bhushan, Tribology and Mechanics of Magnetic Storage Devices, 2nd edition, Springer-Verlag, New York, (1996).
  • P. J. Blau, Scale Effects in Sliding Friction: An Experimental Study, in Fundamentals of Friction: Macroscopic and Microscopic Processes (I.L., Singer and H. M., Pollock, eds.), Kluwer Academic, Dordrecht, Netherlands E220: 523-534, (1992).
  • B. Bhushan, Handbook of Micro/ Nanotribology, 2nd edition, CRC Press, Boca Raton, Florida, (1999).
  • B. Bhushan, A. V. Kulkarni, Effect of Normal Load on Microscale Friction Measurements, Thin Solid Films, 278, 49-56: 293, 333, (1996).
  • M. A. Chowdhury, M. M. Helali, The Effect of Relative Humidity and Roughness on the Friction Coefficient under Horizontal Vibration, The Open Mechanical Engineering Journal, 2: 128- 135, (2008). [19] M. A. Chowdhury, M. ToufiqueHasan The frictional behavior of mild steel under horizontal vibration, Tribology International, 42: 946- 950, (2009). M. Helali, A.B.M.
  • M. A. Chowdhury, S. M. I. Karim, M. L. Ali, The influence of natural frequency of the experimental set- up on the friction coefficient of copper, Proc. of IMechE, Journal of Engineering Tribology, 224: 293- 298, (2009).
  • M. A. Chowdhury, D. M. Nuruzzaman, M. L. Rahaman, Influence of external horizontal vibration on the coefficient of friction of aluminium sliding against stainless steel, Industrial Lubrication and Tribology, 63: 152- 157, (2011).
  • M. A. Chowdhury, M. M..Helali, The Effect of frequency of Vibration and Humidity on the Coefficient of Friction, Tribology International, 39: 958 – 962. (2006).
  • M. A. Chowdhury, M. M. Helali, “The Effect of Amplitude of Vibration on the Coefficient of Friction”, Tribology International,41: 307- 314, (2008).
  • M. A. Chowdhury, M. K. Khalil, D. M. Nuruzzaman, M. L.Rahaman, “The Effect of Sliding Speed and Normal Load on Friction and Wear Property of Aluminum, International Journal of Mechanical & Mechatronics Engineering, 11: 53-57. (2011).
  • M. A. Chowdhury, M. M. Helali, , The Effect of Frequency of Vibration and Humidity on the Wear rate, Wear, 262: 198-203, (2007).

Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces

Yıl 2013, Cilt: 26 Sayı: 4, 597 - 609, 02.01.2014

Öz

In the present study, friction coefficient and wear rate of stainless steel 304 (SS 304) sliding against mild steel are investigated experimentally. In order to do so, a pin on disc apparatus is designed and fabricated. Experiments are carried out when smooth or rough mild steel pin slides on SS 304 disc. Experiments are conducted at normal load 10, 15 and 20 N, sliding velocity 1, 1.5 and 2 m/s and relative humidity 70%. Variations of friction coefficient with the duration of rubbing at different normal loads and sliding velocities are investigated. Results show that friction coefficient is influenced by duration of rubbing, normal load and sliding velocity. In general, friction coefficient increases for a certain duration of rubbing and after that it remains constant for the rest of the experimental time. The obtained results reveal that friction coefficient decreases with the increase in normal load for SS 304 mating with smooth or rough mild steel counterface. On the other hand, it is also found that friction coefficient increases with the increase in sliding velocity. Moreover, wear rate increases with the increase in normal load and sliding velocity. The magnitudes of friction coefficient and wear rate are different depending on sliding velocity and normal load for both smooth and rough counterface pin materials.

Kaynakça

  • J. F. Archard, Wear Theory and Mechanisms, Wear Control Handbook, M. B. Peterson and W.O. Winer, eds., ASME, New York, NY, 35- 80, (1980).
  • D. Tabor, Friction and Wear – Developments Over the Last 50 Years, Keynote Address, Proc. International Conf. Tribology – Friction, Lubrication and Wear, 50 Years On, London, Inst. Mech. Eng., 157-172, (1987).
  • S. T. Oktay, N. P. Suh, Wear Debris Formation and Agglomeration, ASME Journal of Tribology, 114: 379- 393, (1992).
  • N. Saka, M. J. Liou, N. P. Suh, The role of Tribology in Electrical Cotact Phenomena, Wear, 100: 77-105, (1984).
  • N. P. Suh, H. C. Sin, On the Genesis of Friction and Its Effect on Wear, Solid Contact and Lubrication, H. S. Cheng and L. M. Keer, ed., ASME, New York, NY, AMD- 39: 167-183, (1980).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Experimental Investigation of the effect of System Rigidity on Wear and Friction- Induced Vibrations, ASME Journal of Lubrication Technology, 105: 206- 211, (1983).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 1: Effect of Normal Load and System Stiffness, ASME Journal of Tribology, 106: 54-58, (1984).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 2: Vibrations Induced by Dry Friction, ASME Journal of Tribology, 106: 59- 64, (1984).
  • V. Aronov, A. F. D'souza, S. Kalpakjian, I. Shareef, Interactions Among Friction, Wear, and System Stiffness-Part 3: Wear Model, ASME Journal of Tribology, 106: 65-69 (1984).
  • J. W. Lin, M. D. Bryant, Reduction in Wear rate of Carbon Samples Sliding Against Wavy Copper Surfaces, ASME Journal of Tribology, 118: 116-124 (1996).
  • K. C. Ludema, Friction, Wear, Lubrication A Textbook in Tribology, CRC press, London, UK. (1996).
  • E. J. Berger, C. M. Krousgrill, F. Sadeghi, Stability of Sliding in a System Excited by a Rough Moving Surface, ASME, 119: 672- 680, (1997).
  • B. Bhushan, Principle and Applications of Tribology, John Wiley & Sons, Inc., New York, (1999).
  • B. Bhushan, Tribology and Mechanics of Magnetic Storage Devices, 2nd edition, Springer-Verlag, New York, (1996).
  • P. J. Blau, Scale Effects in Sliding Friction: An Experimental Study, in Fundamentals of Friction: Macroscopic and Microscopic Processes (I.L., Singer and H. M., Pollock, eds.), Kluwer Academic, Dordrecht, Netherlands E220: 523-534, (1992).
  • B. Bhushan, Handbook of Micro/ Nanotribology, 2nd edition, CRC Press, Boca Raton, Florida, (1999).
  • B. Bhushan, A. V. Kulkarni, Effect of Normal Load on Microscale Friction Measurements, Thin Solid Films, 278, 49-56: 293, 333, (1996).
  • M. A. Chowdhury, M. M. Helali, The Effect of Relative Humidity and Roughness on the Friction Coefficient under Horizontal Vibration, The Open Mechanical Engineering Journal, 2: 128- 135, (2008). [19] M. A. Chowdhury, M. ToufiqueHasan The frictional behavior of mild steel under horizontal vibration, Tribology International, 42: 946- 950, (2009). M. Helali, A.B.M.
  • M. A. Chowdhury, S. M. I. Karim, M. L. Ali, The influence of natural frequency of the experimental set- up on the friction coefficient of copper, Proc. of IMechE, Journal of Engineering Tribology, 224: 293- 298, (2009).
  • M. A. Chowdhury, D. M. Nuruzzaman, M. L. Rahaman, Influence of external horizontal vibration on the coefficient of friction of aluminium sliding against stainless steel, Industrial Lubrication and Tribology, 63: 152- 157, (2011).
  • M. A. Chowdhury, M. M..Helali, The Effect of frequency of Vibration and Humidity on the Coefficient of Friction, Tribology International, 39: 958 – 962. (2006).
  • M. A. Chowdhury, M. M. Helali, “The Effect of Amplitude of Vibration on the Coefficient of Friction”, Tribology International,41: 307- 314, (2008).
  • M. A. Chowdhury, M. K. Khalil, D. M. Nuruzzaman, M. L.Rahaman, “The Effect of Sliding Speed and Normal Load on Friction and Wear Property of Aluminum, International Journal of Mechanical & Mechatronics Engineering, 11: 53-57. (2011).
  • M. A. Chowdhury, M. M. Helali, , The Effect of Frequency of Vibration and Humidity on the Wear rate, Wear, 262: 198-203, (2007).
Toplam 24 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Mechanical Engineering
Yazarlar

Mohammad Chowdhury

Dewan Nuruzzaman Bu kişi benim

Biplov Roy Bu kişi benim

Yayımlanma Tarihi 2 Ocak 2014
Yayımlandığı Sayı Yıl 2013 Cilt: 26 Sayı: 4

Kaynak Göster

APA Chowdhury, M., Nuruzzaman, D., & Roy, B. (2014). Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces. Gazi University Journal of Science, 26(4), 597-609.
AMA Chowdhury M, Nuruzzaman D, Roy B. Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces. Gazi University Journal of Science. Ocak 2014;26(4):597-609.
Chicago Chowdhury, Mohammad, Dewan Nuruzzaman, ve Biplov Roy. “Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding Against Smooth and Rough Mild Steel Counterfaces”. Gazi University Journal of Science 26, sy. 4 (Ocak 2014): 597-609.
EndNote Chowdhury M, Nuruzzaman D, Roy B (01 Ocak 2014) Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces. Gazi University Journal of Science 26 4 597–609.
IEEE M. Chowdhury, D. Nuruzzaman, ve B. Roy, “Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces”, Gazi University Journal of Science, c. 26, sy. 4, ss. 597–609, 2014.
ISNAD Chowdhury, Mohammad vd. “Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding Against Smooth and Rough Mild Steel Counterfaces”. Gazi University Journal of Science 26/4 (Ocak 2014), 597-609.
JAMA Chowdhury M, Nuruzzaman D, Roy B. Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces. Gazi University Journal of Science. 2014;26:597–609.
MLA Chowdhury, Mohammad vd. “Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding Against Smooth and Rough Mild Steel Counterfaces”. Gazi University Journal of Science, c. 26, sy. 4, 2014, ss. 597-09.
Vancouver Chowdhury M, Nuruzzaman D, Roy B. Experimental Investigation of Friction Coefficient and Wear Rate of Stainless Steel 304 Sliding against Smooth and Rough Mild Steel Counterfaces. Gazi University Journal of Science. 2014;26(4):597-609.