1 |
Almeida, F.S. and Awruch, A.M. (2009), "Design optimization of composite laminated structures using genetic algorithms and finite element analysis", Compos. Struct., 88(3), 443-454.
DOI
ScienceOn
|
2 |
Anderson, W.F. and Fair, P. (2008), "Behavior of railroad ballast under monotonic and cyclic loading", J. Geotech. Geoenviron. Eng., 134(3), 316-327.
DOI
ScienceOn
|
3 |
Aravinthan, T. (2008), R&D on Engineering Fibre Composite-Past, Present and Future, Toowoomba.
|
4 |
Australia, S. (2003), Railway Track Material, Part 14:Prestressed Concrete Sleepers.
|
5 |
Bank, L. (2006), Composite for Construction: Structural Design with FRP Material, JOHN WILEY & SONS, New Jersey.
|
6 |
Berthelot, J.M. and Sefrani, Y. (2007), "Longitudinal and transverse damping of unidirectional fibre composites", Compos. Struct., 79(3), 423-431.
DOI
ScienceOn
|
7 |
Bowness, D., Lock, A.C., Powrie, W., Priest, J.A. and Richards, D.J. (2007), "Monitoring the dynamic displacements of railway track", Proceedings of the Institution of Mechanical Engineers, Part F: J. Rail and Rapid Transit.
|
8 |
Clarke, J.L. (1996), Structural Design of Polymer Composite- EUROCOMP Design Code and Handbook, E&FN Spon, UK.
|
9 |
Gonzalez-Nicieza, C., Alvarez-Fernandez, M.I., Menendez-Díaz, A., Alvarez-Vigil, A.E. and Ariznavarreta- Fernández, F. (2008), "Failure analysis of concrete sleepers in heavy haul railway tracks", Eng. Fail. Anal., 15(1-2), 90-117.
DOI
ScienceOn
|
10 |
Kabo, E. (2006), "A numerical study of the lateral ballast resistance in railway tracks", Proceedings of the Institution of Mechanical Engineers, Part F: J. Rail and Rapid Transit, 220(4), 425-433.
|
11 |
Kaewunruen, S. and Remennikov, A. (2007), "Influence of voids and pockets on vibration characteristics of railway concrete sleepers", Underground Coal Operators' Conference, Faculty of Eng.-Papers, 360.
|
12 |
Manalo, A., Aravinthan, T., Karunasena, W. and Ticoalu, A. (2010), "A review of alternative materials for replacing existing timber sleepers", Compos. Struct., 92(3), 603-611.
DOI
ScienceOn
|
13 |
Nagafuji, T. and Noritsugi, A. (1988), "Performance of synthetic sleepeer", Railway Tech. Res. Inst., Quarterly Reports, 29(3), 107-113.
|
14 |
Namura, A., Yukihiro, K. and Seiichi, M. (2005), "Study on the optimum size of railway sleeper for ballasted truck", Struct. Eng. Earthq. Eng., JSCE, 22(2), 245S-255S
DOI
ScienceOn
|
15 |
Prasad, P. (2008), Fibre Composite Railway Transom, Toowoomba.
|
16 |
Qiao, P., Davalos, J.F. and Zipfel, M.G. (1998), "Modeling and optimal design of composite-reinforced wood railroad crosstie", Compos. Struct., 41(1), 87-96.
DOI
ScienceOn
|
17 |
Sadeghi, J.M. and Babaee, A. (2006), "Structural optimization of B70 railway prestressed concrete sleeper", Iran. J. Sce. Tech., 30(B4), 461-473.
|
18 |
Suiker, A.S.J., Selig, E.T. and Frenkel, R. (2005), "Static and cyclic triaxial testing of ballast and subballast", J. Geotech. Geoenviron. Eng., 131(6), 771-782.
DOI
ScienceOn
|
19 |
Walker, M. and Smith, R.E. (2003), "A technique for the multiobjective optimisation of laminated composite structures using genetic algorithms and finite element analysis", Compos. Struct., 62(1), 123-128.
DOI
ScienceOn
|