A STUDY OF TRIBO-CHARACTERISTICS OF DEEP DRAWING OILS

Authors

  • Bachchhav B D Department of Production Engineering, Sinhgad College of Engineering, Pune, Maharashtra-411 041, India
  • Lathkar G S MGM’s College of Engineering, Hingoli Road, Nanded, Maharashtra-431 605, India

Keywords:

Extreme Pressure Additives, Coefficient of Friction, S/N Ratio

Abstract

This paper presents an attempt to study the performance of anti-wear (AW) and extreme pressure (EP) based oils used in deep drawing operations. Four ball tester was used for screening the performance of lubricants. Also an extreme pressure properties of deep drawing oils has been evaluated for its load carrying capacity. Using pin-on-disc machine, tribo-experiments were conducted employing various blends of AW/EP additives of different concentrations in mineral oil. Taguchi’s analysis technique was used, as a basis for systematic evaluation of friction coefficient under different operating conditions. A total of three lubricating blends were formulated and tested for varying concentration of vegetable base ester. On the basis of experimental results and S/N ratio analysis, ranking of the parameters has been done. This paper suggests a scientific approach for evaluation of commercially available lubricants.

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References

Rao K P and Xie C L (2006), “A Comparative Study on the Performance of Boric Acid With Several Conventional Lubricants in Metal Forming Processes”, Tribology International, Vol. 39, 663-668.

Monetti C, Ilo S and Lebersorger T (2009), “Characterization of Lubricants for Metal Forming by Means of an Oscillating Tribo-test-rig”, Journal of Engineering Tribology, Vol. 223, 817-826.

Lazzarotto L, Dubar L, Dubois A, Ravassard P, Bricout J P and Oudin J (1998), “A Selection Methodology for Lubricating Oils in Cold Metal Forming Processes”, Wear, Vol. 215, 1-9.

Bhattacharya A, Singh T, Verma V K and Prasad N (1995), “1,3,4- Thiadiazoles as potential EP Additives- A Tribological Evaluation Using a Four-ball Test”, Tribology International, Vol. 28(3), 189-194.

Masjuki H H and Malrque M A (1997), “Investigation of Anti-wear Characteristics of Palm Oil Methyl Ester Using a Four Ball Tribometer Test”, Wear, Vol. 206, 179-186.

Rastogi R B, Yadav M and Bhattacharya A (2002), “Application of Molybdenum Complexes of 1-Aryl-2, 5-Dithiohydrazodicarbonamides as Extreme Pressure Lubricant Additives”, Wear, Vol. 52, 686-692.

Cambiella A, Benito J M, Pazos C, Coca J , Hernandez A and Fernandez J E (2007), “Formulation of Emulsifiable Cutting Fluids and Extreme Pressure Behaviour” Journal of Materials Processing Technology, Vol. 184, 139-145.

Balamurugan G M, Muthukannan D and Subramaniam A (2010), “Sliding Wear Behaviour of AISI 304 Austenitic Stainless Steel at Elevated Temperature”, Journal of Manufacturing Engineering, Vol. 5 (2), 137-142.

Rudnick L R (2009), Lubricant Additives, Chemistry and Applications, New York, CRC Pres, 74-79.

ASM Handbook (2000), Mechanical Testing and Evaluation, Vol. 8, Materials Park, OH, ASM International.

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Published

2011-09-01

How to Cite

[1]
“A STUDY OF TRIBO-CHARACTERISTICS OF DEEP DRAWING OILS”, JME, vol. 6, no. 3, pp. 147–152, Sep. 2011, Accessed: Nov. 22, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/404

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