Abstract:Research purposes: In recent years,because of its good economic heavy haul railway has an extensive constructions. Subgrade of heavy haul railway bears larger dynamic load of heavy haul train. In order to analyze the heavy haul railway dynamic load’s influence to roadbed diseases better, and further optimize the thickness of subgrade bed of heavy haul railway,this article uses the three-dimensional finite element software analyzing the dynamic stress changes of heavy rail subgrade bed from the following factors: ballast thickness,surface of subgrade bed’s thickness and modulus,axle load,etc.
Research conclusions; through numerical analysis and comparison with the existing heavy haul railway embankment measured dynamic stress,the follow conclusions are obtained:(1)The dynamic stress in the vertical variation as the axle load,ballast bed thickness,surface layer of subgrade bed’s thickness and modulus’s changes is obtained. The vertical dynamic stress in the subgrade bed increases with the axle load increasing, and decreases with the thickness of ballast bed increasing, and the surface layer of subgrade bed’s modulus and thickness have little effect on the vertical dynamic stress. ( 2 ) 30 t axle load of heavy haul railway compared with 23 t axle load of ordinary railway increases by about 30%,while increasing the thickness of ballast bed can significantly reduce the dynamic stress .Compared with 35 cm thickness of ballast bed,the dynamic stress by using 50 cm thickness of ballast bed can decrease about 20%.(3)The reasonable numerical model and parameter for calculating dynamic stress of heavy railway subgrade obtained. Meanwhile,these provide a reasonable calculation for structure design of heavy rail subgrade bed thickness.
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2014, Vol. 31 
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