The present design of soil–steel bridges is based on plane-strain analysis by considering a slice of a unit width of the conduit wall and the surrounding soil. This two-dimensional analysis neglects the third-dimensional effect of the steel shell and the soil continuum which could be significant especially when the load varies in the longitudinal direction, as in the case of live load acting over a shallow cover. The structure is also subjected to a varying dead load due to the variation in the depth of cover from maximum at the middle part of the conduit to zero at the conduit edges. A three-dimensional finite element analysis is presented in this paper to examine the actual three-dimensional behaviour of soil-steel bridges. The thrust and bending moment around the conduit walls as well as the stability of a single conduit are presented and compared with the results obtained from plane-strain analysis. Also, the live load dispersion in the soil above the conduit is examined and compared with some present...
[1]
Baidar Bakht,et al.
Soil-Steel Structure Response to Live Loads
,
1981
.
[2]
Ian D. Moore.
ELASTIC BUCKLING OF BURIED FLEXIBLE TUBES - A REVIEW OF THEORY AND EXPERIMENT
,
1989
.
[3]
Youssef Fouad Girges.
Three-dimensional analysis of composite soil-steel structures.
,
1993
.
[4]
George Abdel-Sayed,et al.
INELASTIC BUCKLING OF SOIL-STEEL STRUCTURES (DISCUSSION AND CLOSURE)
,
1985
.
[5]
Ulrich Luscher.
Buckling of Soil-Surrounded Tubes
,
1966
.
[6]
Michael J. Forrestal,et al.
Buckling of a long cylindrical shell surrounded by an elastic medium
,
1965
.
[7]
Ernest T. Selig,et al.
ELASTIC BUCKLING STRENGTH OF BURIED FLEXIBLE CULVERTS
,
1988
.
[8]
Baidar Bakht,et al.
ANALYSIS OF LIVE-LOAD EFFECTS IN SOIL-STEEL STRUCTURES
,
1982
.
[9]
George Abdel-Sayed,et al.
STABILITY OF CONDUIT WALLS OF SOIL-STEEL BRIDGES
,
1992
.