Propose a New Model for Prediction of the Impact Wear Using an Experimental Method
Subject Areas : EngineeringM Akhondizadeh 1 , M Fooladi Mahani 2 , M Rezaeizadeh 3 , S.H Mansouri 4
1 - Mechanical Engineering Department of Shahid Bahonar, University of Kerman
2 - Mechanical Engineering Department of Shahid Bahonar, University of Kerman
3 - Graduate University of Advanced Technology, Kerman
4 - Mechanical Engineering Department of Shahid Bahonar, University of Kerman
Keywords:
Abstract :
[1] Bayer R. G., Engel P. A., Sirico J. L., 1971, Impact wear testing machine, Wear 24: 343-354.
[2] Engel P. A., Lyons T. H., Sirico J. L., 1973, Impact wear for steel specimens, Wear 23:185-201.
[3] Engel P. A., Millis D.B., 1982, Study of surface topology in impact wear, Wear 75: 423- 442.
[4] Goryacheva G., Contact Mechanics in Tribology, Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow, Russia, Kluwer Academic Publishers.
[5] Mindlin R. D., Deresiewicz H., 1953, Elastic spheres in contact under varying oblique forces, Applied Mechanics 12: 116-125.
[6] Maw N., 1975, The oblique impact of elastic spheres, Wear 25:101-114.
[7] Gorham D. A., Kharaz A. H., 2000, The measurement of particle rebound characteristics, Powder Technology 112:193-202.
[8] Kharaz A.H., Gorham D.A., Salman A.D., 2001, An experimental study of the elastic rebound of spheres, Powder Technology 25: 281–291.
[9] Levy A., 1993, The erosion–corrosion of tubing steels in combustion boiler environments, Corrosion Science 35: 1035-1056.
[10] Bellman R., Levy A., 1981, Erosion mechanism in ductile metals, Wear 225: 1-27.
[11] Lindsley B.A., Marder A.R., 1999, The effect of velocity on the solid particle erosion rate of alloys, Wear 225-229: 510–516.
[12] Head W.J., Harr M.E., 1970, The development of a model to predict the erosion of materials by natural contaminants, Wear 15:1- 46.
[13] Xie Y., McI Clark H., Hawthorne H.M., 1999, Modelling slurry particle dynamics in the Coriolis erosion tester, Wear 225-229:405-416.
[14] Talia M., Lankarani H., Talia J.E., 1999, New experimental technique for the study and analysis of solid particle erosion mechanisms, Wear 250:1070-1077.
[15] Di Maio F. P., Renzo A. Di., 2005, Modeling particle contacts in distinct element simulations, Chemical Engineering Research and Design 83:1287-1297.
[16] Lewis D.A., Rogers R. J., 1988, Experimental and numerical study of forces during oblique impact, Journal of Sound and Vibration 125(3): 403- 412.
[17] Iwai Y., Hondaa T., Yamadaa H., Matsubara T., Larsson M., Hogmark S., 2001, Evaluation of wear resistance of thin hard coatings by a new solid particle impact test, Wear 251: 861-867.
[18] Yang L.J., 2005, A test methodology for the determination of wear coefficient, Wear 259:1453-1461.
[19] Ashrafizadeh H., Ashrafizadeh F., 2012, A numerical 3D simulation for prediction of wear caused by solid particle impact, Wear 276:75- 84.
