Abtin Jahanbakhshzadeh scite author profile

Backfill is commonly used world-wide in underground mines to improve ground stability and reduce solid waste disposal on the surface. Practical solutions are required to assess the stress state in the backfilled stopes, as the stress state is influenced by the fill settlement that produces a stress transfer to the adjacent rock walls. The majority of existing analytical and numerical solutions for the stresses in backfilled openings were developed for two-dimensional (plane strain) conditions. In reality, mine stopes have a limited extension in the horizontal plane so the stresses are influenced by the four walls. This paper presents recent three-dimensional (3D) simulations results and a new 3D closed-form solution for the vertical and horizontal stresses in inclined backfilled stopes with parallel walls. This solution takes into account the variation of the stresses along the opening width and height, for various inclination angles and fills properties. The numerical results are used to validate the analytical solution and illustrate how the stress state varies along the opening height, length, and width, for different opening sizes and inclination angles of the footwall and hanging wall. Experimental results are also used to assess the validity of the proposed solution.

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Numerical analysis of the stability of arched sill mats made of cemented backfill

Keita

Jahanbakhshzadeh

2021

International Journal of Rock Mechanics and Mining Sciences

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Numerical analysis of the failure mechanisms of sill mats made of cemented backfill

Keita

Jahanbakhshzadeh

2021

International Journal of Geotechnical Engineering

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Analysis of the Stress Distribution in Inclined Backfilled Stopes Using Closed-form Solutions and Numerical Simulations

Jahanbakhshzadeh

Aubertin

2017

Geotech Geol Eng

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