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In this paper, the dry sliding wear behaviour of the polyester composite reinforced with iron slag as filler was studied experimentally. The Taguchi method-based experiments were carried on pin-on-disk wear test set-up. The control factors considered for studying wear rate were sliding velocity, slag percentage and normal load applied on the member with constant sliding distance. The output performance parameters considered were coefficient of friction and weight loss. From the analysis of variance (ANOVA), it was observed that coefficient of friction is significantly affected by normal load then followed by slag content and sliding velocity. Sliding velocity plays a vital role on the weight loss, then followed by slag content and normal load. The optimal factor combination obtained was sliding velocity = 50 cm/s, slag percentage = 30 % and normal load = 4 kg. The model was validated using the set of optimal factor combinations to conduct a confirmation experiment.
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Rocznik
Tom
Strony
221--229
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
- Department of Mechanical Engineering, V.R. Siddhartha Engineering College, Kanuru, Vijayawada, 520007, India
autor
- Department of Mechanical Engineering, Rajiv Gandhi University of Knowledge Technologies, Nuzvid, Andhra Pradesh, 521202, India
- Department of Mechanical Engineering, Rajiv Gandhi University of Knowledge Technologies, Nuzvid, Andhra Pradesh, 521202, India
autor
- Department of Mechanical Engineering, Rajiv Gandhi University of Knowledge Technologies, Nuzvid, Andhra Pradesh, 521202, India
autor
- Department of Mechanical Engineering, Rajiv Gandhi University of Knowledge Technologies, Nuzvid, Andhra Pradesh, 521202, India
autor
- Department of Mechanical Engineering, A.I.T.S. Tirupati, Andhra Pradesh, 517520, India
autor
- Department of Mechanical Engineering, GMR Institute of Technology, GMR Nagar, Rajam, Andhra Pradesh, 532127, India
Bibliografia
- 1. Katz H.S., Mileski J.V. 1987. Handbook of Fillers for Plastics. Springer, New York.
- 2. Ramakrishna H.V., Padma Priya S., Rai S.K., Varadarajulu A. 2015. Studies on tensile and flexural properties of epoxy toughened with PMMA/granite powder and epoxy toughened with PMMA/fly ash composites. Journal of Reinforced Plastics and Composites. 24(12), 1269–1277.
- 3. Chand N. 1988. SEM observation of fractured fly ash-polyester composites. Journal of Materials Science Letters, 7(1), 36–38.
- 4. Satapathy A., Patnaik A. 2008. Analysis of dry sliding behaviour of red mud filled polyester composites using Taguchi method. Journal of Reinforced Plastics and Composites, 29(19), 2883–2897.
- 5. Acharya S.K., Dikshit V., Mishra P. 2008. Erosive Wear Behaviour of Red mud filled Metal matrix composite. Journal of Reinforced Plastics and Composites. 27(2), 145–152.
- 6. Biswas S., Patnaik A., Kaundal R. 2012. Effect of Red Mud and Copper Slag Particles on Physical and Mechanical Properties of Bamboo–Fiber-Rein forced Epoxy Composites. Advances in Mechanical Engineering. 4(1), 1–6.
- 7. Mao K., Langlois P., Hu Z., Alharbi K., Xu X., Milson M., Li W., Hooke C.J., Chetwynd D. 2015. The wear and thermal mechanical contact behaviour of machine cut polymer gears. Wear. 332, 822–826.
- 8. Rout A., Satapathy A., 2012. Analysis of dry sliding wear behaviour of rice husk filled epoxy composites using design of experiment and ANN. Procedia Engineering. 38, 1218–1232.
- 9. Prasat S.V., Subramanian R., Radhika N., Anandavel B. 2011. Dry sliding wear and friction studies on AlSi10Mg-fly ash-graphite hybrid metal matrix composites using Taguchi method. Tribology – Materials, Surfaces and Interfaces, 5(2), 72–81.
- 10. Basavarajappa S., Chandramohan G., Subramanian R., Chandrasekar A. 2006. Dry sliding wear behaviour of Al 2219/SiC metal matrix composites. Materials Science – Poland. 24(2), 357–366.
- 11. Deuis R.L., Subramanian C., Yellup J.M. 1997. Dry sliding wear of aluminium composites – A review. Composites Science and Technology. 57(4). 415–435.
- 12. Vijaya Kumar N., Sarcar M.M.M., Ramji K. 2014. Investigation of Dielectric Properties of Industrial Waste Reinforced Particulate Polymer Composites. Advances in Materials Science and Engineering, 319741, 1–6.
- 13. Vijaya Kumar N., Sarcar M.M.M., Ramji K., Geetha V. 2014. Evaluation of wear properties of industrial waste(slag) reinforced polypropylene composites. International Journal of Theoretical and Applied Research in Mechanical Engineering. 3(1) 17–21.
- 14. Padhi P.K., Satapathy A. 2012. Parametric Evaluation of Erosion Response of Epoxy Resin Filled with Blast Furnace Slag Using Taguchi Technique. International Conference on Advancements in Polymer Materials (APM), CIPET – Ahmedabad, February 10–12.
- 15. Padhi P.K., Satapathy A. 2013. Glass Fiber and Blast Furnace Slag Particles Reinforced Epoxy-based Hybrid Composites. Applied Polymer Composites. 1(2), 85–92.
- 16. Salman K.D., Hasan L.K. 2021. Dry Sliding Wear Behaviour of Composite Materials Fabricated by Powder Metallurgy. Journal of Mechanical Engineering Research and Developments. 44(1), 232–241.
- 17. Basavarajappa S., Arun K.V., Davim J.P. 2009. Effect of filler materials on dry sliding wear behaviour of polymer matrix composites –A Taguchi Approach. Journal of minerals and materials characterization and engineering. 8(5), 379–391.
- 18. Pattanaik A., Satpathyand M.P., Mishra S.C. 2016. Dry sliding wear behaviour of epoxy flay ash composite with Taguchi optimization., Engineering Science and Technology-an International Journal, 19(2), 710–716.
- 19. Roy R.K. 2001. Design of experiments using the Taguchi approach: 16 steps to product and process improvement. John Wiley & Sons. New York.
- 20. Ross P.J. 1966. Taguchi technique for quality engineering. McGraw-Hill International Editions, Singapore.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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