Stability and design of yield pillars located at shallow and moderate depths : Ozbay, M U J S Afr Inst Min MetallV89, N3, March 1989, P73–79

Abstract

The stability of pillars is analysed on the assumption that pillars shed load in a stable manner if the slope of the strata load-deformation relation is steeper than that of pillars in the post-peak regime. Concepts of local stiffness, mine structural stiffness, and critical stiffness are discussed. Procedures are descriptionbed for the determination of strata stiffness for various pillar layouts by use of the available boundary-element computer programs. The postpeak stiffness of pillars is assessed from the available data relating to the post-peak load-deformation relationship and width-to-height ratio. Stability analyses are carried out by the contrasting of strata stiffness with post-peak pillar stiffness. It is shown that the strata stiffness becomes unacceptably small for a stable yield-pillar layout when the span exceeds about 5 times the depth. The strata stiffness is found to increase, thereby increasing the stability, as the span-to-depth ratio, number of pillars, and percentage extraction are decreased. It is also found that the stability in a yield pillar becomes difficult to achieve when all the pillars in a layout are in the descending part of their post-peak load-deformation curve