Rock failure criteria and mechanisms of failure for excavation stability design: a chronological evolution

Journal of natural sciences, life and applied sciences Pub Date : 2021-01-29 DOI:10.53974/unza.jonas.3.1.459

Musa Gama, P. Chileshe

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Abstract

Failure of rock, when it does occur, follows definite mechanical laws and that its probability, can, at least in some instances, be predicted sufficiently in advance of actual occurrence so as to prevent any great danger to the miner. The article chronologically describes rock failure criteria of some practical and most frequently featured strength criteria for predicting failure mechanism of rocks from rock sample or models (lab scale) to total structure or rock mass breakdown (field scale). A cross section range of criteria, from the typical and indispensable to state of the art ones, categorised under isotropic or anisotropic, stress, strain and energy related failure criteria that are predominantly derived on the basis of Coulomb, von Mises and Griffith theories of failure are reviewed. More attention and discussion has been given to most practical criteria like the Mohr-Coulomb and Hoek-Brown. Evolution of mechanisms of rock failure over time by various authors. The paper demonstrates progression of rock failure criteria, and that current theories hinge on classical ones.

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开挖稳定性设计中的岩石破坏准则和破坏机制:时序演化

岩石的破坏，当它确实发生时，遵循一定的力学规律，其概率，至少在某些情况下，可以在实际发生之前充分预测，以防止对矿工造成任何重大危险。本文按时间顺序描述了预测岩石破坏机制的一些实用的和最常用的强度准则，从岩石样品或模型(实验室尺度)到总结构或岩体破坏(现场尺度)。标准的横截面范围，从典型的和必不可少的状态的最先进的，分类在各向同性或各向异性，应力，应变和能量相关的失效准则，主要是基于库仑，冯米塞斯和格里菲斯的失效理论。更多的关注和讨论给予了最实用的标准，如莫尔-库仑和胡克-布朗。不同作者对岩石破坏机制随时间的演化。本文论述了岩石破坏准则的发展，指出当前的理论是建立在经典准则的基础上的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of natural sciences, life and applied sciences

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