Method for predicting the stress-strain state of the vertical shaft lining at the drift landing section in saliferous rocks

IF 2.4 Q2 MINING & MINERAL PROCESSING
M. Karasev, M. A. Buslova, M. Vilner, T. T. Nguyen
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引用次数: 10

Abstract

The article proposes a method for predicting the stress-strain state of the vertical shaft lining in saliferous rocks at the drift landing section. The paper considers the development of geomechanical processes in the saliferous rock in the landing area, the support is viewed as a two-layer medium: the inner layer is concrete, the outer layer is compensation material. With this in view, the paper solves the problem of continuum mechanics in a spatial setting, taking into account the long-term deformation of salts and the compressibility of the compensation layer. Long-term deformation of saliferous rocks is described using the viscoplastic model of salt deformation into the numerical model, and the crushable foam model to simulate the deformation of the compensation layer. This approach considers all stages of the deformation of the compensation layer material and the development of long-term deformations of saliferous rocks, which makes it possible to increase the reliability of the forecast of the stress-strain state of the vertical shaft lining.
盐酸盐岩巷道着陆段立井井壁应力-应变状态预测方法
提出了一种预测巷道着落段含盐岩立井壁应力-应变状态的方法。本文考虑着陆区含盐岩地质力学过程的发展,将支护视为两层介质:内层为混凝土,外层为补偿材料。鉴于此,本文在考虑盐的长期变形和补偿层的可压缩性的情况下,解决了空间环境下的连续介质力学问题。将盐变形的粘塑性模型引入数值模型,用可破碎泡沫模型模拟补偿层的变形,描述含盐岩石的长期变形。该方法考虑了补偿层材料变形的各个阶段和盐岩长期变形的发展,提高了立井井壁应力-应变状态预测的可靠性。
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来源期刊
Journal of Mining Institute
Journal of Mining Institute MINING & MINERAL PROCESSING-
CiteScore
7.50
自引率
25.00%
发文量
62
审稿时长
8 weeks
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