Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
Dry Sliding Wear Behavior of Epoxy-Rubber Dust Composites
Authors: Antaryami Mishra
Abstract:
Composite pins of rubber dust collected from tyre retreading centres of trucks, cars and buses etc.and epoxy with weight percentages of 10. 15, and 20 % of rubber (weight fractions of 9, 13 and 17 % respectively) have been prepared in house with the help of a split wooden mould. The pins were tested in a pin-on-disc wear monitor to determine the co-efficient of friction and weight losses with varying speeds, loads and time. The wear volume and wear rates have also been found out for all these three specimens.. It is observed that all the specimens have exhibited very low coefficient of friction and low wear rates under dry sliding condition. Out of the above three samples tested, the specimen with 10 % rubber dust by weight has shown lowest wear rates. However a peculiar result i.e decreasing trend has been obtained with 20% reinforcement of rubber in epoxy while rubbed against steel at varying speeds. This might have occurred due to high surface finish of the disc and formation of a thin transfer layer from the compositeKeywords: epoxy, rubber dust, composites, weight fractions, pin-on-disc wear tests, wear volume and wear rate calculations.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1083867
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2153References:
[1] Cardwell,B. J. and Yee,A.F,"Toughening of Epoxies through Thermoplastic Crack Bridging," Jou. of Mater. Sc.,Vol.-33,no.22, Nov.1998, pp. 5473-5484.
[2] Li,D., Yee, A.F., Chen, W.I., Chang,S.C. and Takahashi,K.," Fracture Behaviour of Unmodified and Rubber-modified Epoxies under Hydrostatic Pressure," Jou. of Mater.Sc.,Vol.-99,1999, pp.2205-2215.
[3] Bassani, R., Levitta, G., Meozzi,M., and Palla, G., " Friction and Wear of Epoxy Resin on Inox steel -Remarks on the Influence of Velocity, Load and Induced Thermal State," Wear, Vol. 247-2, Feb 2001, pp.125- 132.
[4] Kochergin,Yu.S.,Zolotareva,V.V.,Grigorenko, T.I. and
[5] Shologon,V.V, " Characteristics of Epoxy-rubber Adhesive Compositions Cured with Polyoxypropylenetriamine," Chemistry and Material Science, Polymer Science Series C, Vol.-49,No.2, 2006, pp.5- 10.
[6] Ismail,H., Rusli,A. and Azura,A.R., " Study of Fatigue Life and Filler Interaction of Paper Sludge Filled Epoxidized Natural Rubber (ENR) and Maleated Natural Rubber (MNR) Composites," Jou of Ploymer and Environment, Vol.-15,2007, pp.67-74.
[7] Sreekala, M.S., Kumaran,M.G., Joseph,S.,Jacob,M and Thomas,S.," Oil Palm Fibre Reinforced Phenol Formaldehyde Composites: Influence of Fibre Surface Modifications on the Mechanical Performance," Applied Composite Material, Vol.-7,2007, pp. 295-329.
[8] Lucignano,C., Quadrini, F. and Tagliaferri,V.," Production of Tribological Composites by Recycling Dust of Friction Products," Jou. of Reinforced Plastics and Composites, Vol.-27,2008, pp.1975-1982.
[9] Ganguly, Arnab and George, Raji, "Asbestos Free Friction composition for Brake Lining Bull. Mater. Sci., Vol. 31, No. 1, February 2008, pp. 19-22.
[10] El-Sherbiny Y. M., Hasouna A. T. and Ali W. Y., " Friction Coefficient of Rubber Sliding against Flooring Materials," APRN Jou. of Engineering and Applied Science, Vol.7, No.1, Jan 2012, pp.121-126.