1 |
Arslan, M.A. and Kayabasi, O. (2012), "3-D rail-wheel contact analysis using FEA", Adv. Eng. Softw., 45, 325-331.
DOI
|
2 |
Braghin, F., Lewis, R., Dwyer-Joyce, R.S. and Bruni, S. (2006), "A mathematical model to predict railway wheel profile evolution due to wear", Wear, 261, 1253-1264.
DOI
|
3 |
Chang, W.R., Etsion, I. and Bogy, D.B. (1987), "An elastic-plastic model for the contact of rough surfaces", ASME. J. Tribol., 109, 257-263.
DOI
|
4 |
Davis, J.R. (1999), Metals Handbook, 2nd Edition, ASM International, Metals Park, OH.
|
5 |
Donzella, G. and Petrogalli, C. (2010), "A failure assessment diagram for components subjected to rolling contact loading", Int. J. Fatig., 32(2), 256-268.
DOI
|
6 |
Haines, D.J. and Ollerton, E. (1963), "Contact stress distribution on elliptical contact surfaces subjected to radial and tangential forces", Proceedings of Institution of Mechanical Engineers, 177(4), 45-54.
|
7 |
Santamaria, J., Vadillo, E.G. and Oyarzabal, O. (2009), "Wheel-rail wear index prediction considering multiple contact patches", Wear, 267, 1100-1104.
DOI
|
8 |
Smith, J.O. and Liu, C.K. (1953), "Stresses due to tangential and normal loads on an elastic solid with application to some contact stress problems", J. Appl. Mech., 20, 157-166.
|
9 |
Sathish Gandhi, V.C., Ramesh, S., Kumaravelan, R. and Thanmanaselvi, M. (2012), "Contact analysis of spherical ball and a deformable flat model with the effect of tangent modulus", Struct. Eng. Mech., 44(1), 61-72.
DOI
|
10 |
Yaylac, M. and Birinci, A. (2013), "The receding contact problem of two elastic layers supported by two elastic quarter planes", Struct. Eng. Mech., 48(2), 241-255.
DOI
|
11 |
Zakeri, J.A., Fathali, M. and Boloukian, N. (2011), "Effects of rail cant on wheel-rail contact forces in slab tracks", Int. J. Mech. Appl., 1(1), 12-21.
DOI
|
12 |
Zhu, J.J., Ahmed, A.K.W. and Rakheja, S. (2007), "An adaptive contact model for simulation of wheel-rail impact load due to a wheel flat", Proceedings of the 13th National Conference on Mechanisms and Machines, IISc, Bangalore, India.
|
13 |
Zong, N. and Dhanasekar, M. (2012), "Analysis of rail ends under wheel contact loading", Int. J. Aeros. Mech. Eng., 6, 452-460.
|
14 |
Kumaravelan, R., Ramesh, S., Sathish Gandhi, V.C., Joemax Agu, M. and Thanmanaselvi, M., (2013), "Analysis of multi leaf spring based on contact mechanics-a novel approach", Struct. Eng. Mech., 47(3), 443-454.
DOI
|
15 |
Jackson, R.L. and Green, I. (2005), "A finite element study of elasto plastic hemispherical contact against a rigid flat", ASME. J. Tribol., 127, 343-54.
DOI
|
16 |
Johnson, K.L. (1985), Contact Mechanics, Cambridge University Press, Cambridge.
|
17 |
Kogut, L. and Etsion, I. (2002), "Elastic-plastic contact analysis of a sphere and a rigid flat", ASME. J. Tribol., 69, 657-662.
|
18 |
Mohan, P.M. (2012), "Analysis of railway wheel to study thermal and structural behaviour", Int. J. Scientif. Eng. Res., 3(11), 1-4.
|
19 |
Monfared, V. (2011), "A new analytical formulation for contact stress and prediction of crack propagation path in rolling bodies and comparing with finite element model (FEM) results statically", Int. J. Phys. Sci., 6(15), 3589-3594.
|
20 |
Monfared, V. (2012), "Contact stress analysis in rolling bodies by finite element method (FEM) statically", J. Mech. Eng. Autom., 2(2), 12-16.
DOI
|
21 |
Monfared, V. and Khalili, M.R. (2011), "Investigation of relations between atomic number and composition weight ratio in PZT and SMA and prediction of mechanical behavior", Acta phys. Pol. A., 120, 424-428.
DOI
|
22 |
Polin, L. and Lin, J.F. (2006), "A new method for elastic-plastic contact analysis of a deformable sphere and a rigid flat", ASME. J. Tribol., 128, 221-229.
DOI
|
23 |
Sackfield, A. and Hills, D. A. (1983), "Some useful results in the classical Hertz contact problem", J. Strain Anal., 18(2), 101-105.
DOI
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