UOW research to improve railway track safety
Sep 04, 2003
Engineering researchers at the University of Wollongong have discovered an innovative way of stabilising railway tracks to cater for modern high-speed trains that carry heavy loads. Research students working under the guidance of Professor Buddhima Indraratna, of UOW's Department of Civil, Mining and Environmental Engineering, have found that inserting plastic (polymer) grids underneath ballast and the placing of a synthetic fabric to separate the foundation soil from the overlying rock particles can make the railway tracks withstand much higher dynamic loads imposed by the passage of fast trains. Professor Indraratna said that the flexible but strong polymer grids when placed within the ballast bed would introduce internal resistance against the ballast particles wanting to move horizontally against each other during the passage of trains - thereby reducing the risk of fracturing of particles. At the same time, the synthetic geo-fabrics will prevent the upward movement of foundation soils in to the voids of the ballast bed making the ballast particles lose friction as well as blocking drainage during wet weather, he said. "The result is a novel rail track in which natural geological materials are blended with synthetics to give a stronger composite with greater load bearing capacity and reduced settlement," according to Professor Indraratna. The rail track research has been undertaken within the Cooperative Research Centre for Railway Engineering and Technologies, funded by the Federal Government, where close to $1 million a year is received in research grants. The funding has enabled the design and construction of several items of unique, large-scale testing equipment to simulate the conditions that occur in rail tracks. Professor Indraratna said the research findings based on these test rigs was certain to lead to Australian railway authorities modernising the old fashioned tracks. He said Australian geosynthetic companies were extremely excited because of the huge potential for using their polymer products in national railway tracks that are among the longest in the world. In NSW alone, more than $12 million is spent annually on replacing the crushed ballast on rail tracks over regular track maintenance periods. "With synthetic grids and fabrics used in railway tracks, this maintenance cycle can be significantly extended, thereby saving the rail industry several million dollars a year," Professor Indraratna said. He said the cost of the synthetics was actually much cheaper than the cost of quarrying good quality rock for ballast, which would extend the life cycle of ballast and reduce the frequency of maintenance. Professor Indraratna leaves for overseas on September 13 to speak at various international conferences in the USA, Europe and South-East Asia about some of his team's
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