Development of Coupled FEM and Fuzzy Rules-Based Procedures for Mitigation of Uncertainty in Forecasting Stability of Underground Pillars

Patanwar Yugal Kishor; Deb Debasis

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Development of Coupled FEM and Fuzzy Rules-Based Procedures for Mitigation of Uncertainty in Forecasting Stability of Underground Pillars

机译：Development of Coupled FEM and Fuzzy Rules-Based Procedures for Mitigation of Uncertainty in Forecasting Stability of Underground Pillars

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Stability of underground working depends on geomechanical properties of rocks as well as geometrical and operational parameters of excavation. In this study, a fuzzy rule-based method, minimizing the subjectivity in rock engineering system (RES) is proposed to address the uncertainty in determining stability of underground pillars. A total of 243 elastoplastic 3D numerical models are analyzed by varying attributes of five input (leading) variables: (1) rock mass strength, (2) depth (in situ stress), (3) height of excavation (stope), (4) sequence of excavation with or without filling, and (5) crown pillar thickness. Interaction matrix between the leading input variables are evaluated using fuzzy "IF-THEN" rules considering the results of finite-element models (FEMs) and the "cause-effect" plot of the variables are also determined. Average equivalent plastic strain (EPS) over two consecutive pillars is the target output variable indicating the stability of the excavated zone (stope)-pillar system. Results of FEMs are plotted in the existing stope stability number graph and show that (ESP) over bar approximate to 0.06-0.07 denotes the boundary between "stable" and "transition" zone and (ESP) over bar approximate to 0.09-0.1 represents the boundary between "transition" and "caved" zone. A rib pillar stability index (RPSI) is formulated based on the vulnerability of a pillar for the evaluation of (ESP) over bar indicating the "stable" or "unstable" condition. Results show that plastic strain decreases exponentially with increasing RPSI having R-2 of 0.824. The proposed concept is applied to determine the stability of stopes of a hard rock mine by estimating RPSI and (ESP) over bar and finds that they are placed in "stable" zone for the given geomining conditions. (C) 2021 American Society of Civil Engineers.

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《International journal of geomechanics》 |2022年第2期|4021276.1-4021276.18|共18页
作者
Patanwar Yugal Kishor; Deb Debasis;
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作者单位

Indian Inst Technol Kharagpur, Dept Min Engn, Kharagpur 721302, W Bengal, India;

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正文语种英语
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Rib pillar stability; Finite-element method; Equivalent plastic strain; Regression analysis; Fuzzy rules-based RES;

Development of Coupled FEM and Fuzzy Rules-Based Procedures for Mitigation of Uncertainty in Forecasting Stability of Underground Pillars

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