Add to ORKGMandal, N ORCiD: 0000-0001-5264-528XInsulated rail joints (IRJs) are very important for signalling systems in controlling trains on a railway track. They are also helpful to locate broken rails. The IRJs are considered as one of the weakest links of a railway track. The bending rigidity of an IRJ is only 2/3rd that of continuous rail. Consequently, larger stresses and deflections are experienced in the vicinity of IRJs. It is, therefore, necessary to give proper attention in designing the geometrical configuration of IRJs, focussing on composite endpost materials and other parameters to reduce plastic flow and stress states. This paper addresses the question of which stress state causes plastic deformation of IRJs? To answer that question,...
Railhead becomes severely stressed due to localised contact loadings. This is more critical in the v...
Free ends of insulated rail joints (IRJs) occur because gaps between the rails and endposts can be c...
Finite element analysis of the mechanical behaviour of insulated rail joints due to impact loadings ...
Insulated rail joints (IRJs) are very important for signalling systems in controlling trains on a ra...
This study focusses on a 3D finite element analysis to investigate damage of sub-surface railhead ma...
Railhead material becomes severely stressed due to localised cyclical wheel/rail contact loadings. T...
Railhead material becomes severely stressed due to localised cyclical wheel/rail contact loadings. T...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead becomes severely stressed due to localised contact loadings. This is more critical in the v...
There are two types of Insulated rail joints (IRJs) in the railway track: inserted and glued. The IR...
Railhead becomes severely stressed due to localised contact loadings. This is more critical in the v...
Free ends of insulated rail joints (IRJs) occur because gaps between the rails and endposts can be c...
Finite element analysis of the mechanical behaviour of insulated rail joints due to impact loadings ...
Insulated rail joints (IRJs) are very important for signalling systems in controlling trains on a ra...
This study focusses on a 3D finite element analysis to investigate damage of sub-surface railhead ma...
Railhead material becomes severely stressed due to localised cyclical wheel/rail contact loadings. T...
Railhead material becomes severely stressed due to localised cyclical wheel/rail contact loadings. T...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Insulated rail joints (IRJs) are safety critical components in the electrical signalling system of r...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead material becomes severely stressed due to localised wheel/rail contact loadings. The stress...
Railhead becomes severely stressed due to localised contact loadings. This is more critical in the v...
There are two types of Insulated rail joints (IRJs) in the railway track: inserted and glued. The IR...
Railhead becomes severely stressed due to localised contact loadings. This is more critical in the v...
Free ends of insulated rail joints (IRJs) occur because gaps between the rails and endposts can be c...
Finite element analysis of the mechanical behaviour of insulated rail joints due to impact loadings ...