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Evaluating Coal Pillar Mechanics Through Field Measurements.
Iannacchione AT; Mark C
Proceeds 11th Int'l Conf on Gr Control in Mng Univ of Wollongong NSW Australia Pp 38-47 :38-47
Designing coal pillars to provide resistance against overburden loads has long been an aim of rock mechanics engineers. The need for accurate pillar strength models has become more urgent as greater overburdens are encountered and pillar sizes grow larger. Current pillar design models differ widely in their predictions of the trend in pillar strength with increasing pillar width-to-height ratio. The goal of this paper is to evaluate current pillar strength theories, using a comprehensive data base of stress measurements from coal pillars. The stress measurements indicate that coal pillars maintain relatively high stresses near the ribline, and that the stress gradient within the yield zone can be approximated as a straight line. Several problems are identified for further research, including calibration procedures for different types of stress cells, strain softening behavior in the yield zone, and measurement of stresses in the cores of very wide pillars.
Proceeds 11th Int'l Conf. on Gr. Control in Mng. Univ. of Wollongong, NSW, Australia, Pp 38-47
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