Effect of dynamic stress produced by rock blasting on the optimal dimensioning of room and pillars in horizontal layers.
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2022
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Abstract
An optimal dimensioning of the room and pillars of the square or rectangular section is nding adequate transversal section
support for the pillar; in that sense, all forces acting on the pillar must be evaluated. e pillar has its ends subjected to normal (σ)
and shear stresses (τ). In addition, the pillar can also be subjected to dynamic stresses from the seismic waves generated by rock
blasting. us, when calculating the dimensions of a mine pillar, the stresses imposed by seismic waves must be considered. e
combination of lithostatic and dynamic stresses generated by blasting can a ect the pillar, generating regions, or areas that will
exhibit the formation of cracks, microcracks, chipping, and other detrimental processes for its stability. In that regard, it is
appropriate to assess the dynamic e ects of the energy delivered in each wave pulse so that these dynamic quantities can be
included in the dimensioning of the pillars. is paper presents the physical and mathematical formulation describing the
dimensioning issues of room and pillars and its solution using numerical modeling. e numerical modeling is performed using
nonlinear mathematical programming and simulation with FLAC 3D (Fast Lagrangian Analysis of Continua in 3D). In this study,
it was proven that the stress generated by the seismic wave represents a dynamic stress of nearly 5.5 MPa. 'Dimensioned pillars
considering wave stresses allows it to recover an average 1.6% less when it is compared with pillars only under overlying
rock mass'.
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CANO NUNEZ, A. E.; ARROYO ORTIZ, C. E.; SILVA, J. M. da. Effect of dynamic stress produced by rock blasting on the optimal dimensioning of room and pillars in horizontal layers. Advances in Materials Science and Engineering, v. 2022, artigo 7826557, jul. 2022. Disponível em: <https://www.hindawi.com/journals/amse/2022/7826557/>. Acesso em: 15 mar. 2023.