Physical-mechanical Properties of Construction Site Bedrocks of Headworks and Powerhouse of “Khobi 2 HPP” Hydrotechnical Complex

Works of Georgian Technical University Pub Date : 2023-03-21 DOI:10.36073/1512-0996-2023-1-75-85

Giorgi Tlashadze, L. Gorgidze, Mamuka Natsvlishvili

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Abstract

Modern methods of rock evaluation, such as Rock Quality Index (RQD), Rock Mass Rating (RMR) and Rock Mass Classification System (Q), are used within the field of geotechnical surveys. RQD was determined by D.U. Deere in 1963, as a simple classification system of rock mass stability. While using RQD index five classes of rocks (A-E) are determined. Q value can be determined in different ways: during mapping in underground excavations, on the surface or alternatively – on basis of core description. The most accurate values are obtained during underground geological mapping. Dividing the underground excavations into several parts might be required during mapping, so that variation of Q value is moderate in each section, meaning that such variation should not exceed the rock class variation index according to the reinforcement scheme. During excavation works single blasting often represents natural section for individual mapping. A variation may take place in sections of several meters, but for showing this variation histograms can be used during mapping.

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“霍比2hpp”水利枢纽工头厂房施工现场基岩物理力学特性研究

现代岩石评价方法，如岩石质量指数(RQD)、岩体等级(RMR)和岩体分类系统(Q)，在岩土工程调查领域得到广泛应用。RQD是由D.U. Deere于1963年确定的，是一种简单的岩体稳定性分类体系。利用RQD指标确定了岩石的5类(A-E)。Q值的确定有以下几种方式:在地下开挖时测图、在地表测图或根据岩心描述测图。最准确的数值是在地下地质填图时获得的。制图时可能需要将地下开挖分成若干部分，使每一段的Q值变化适中，即根据加固方案，其变化不应超过岩石类变化指标。在开挖工程中，单次爆破往往代表自然剖面进行单独测绘。变化可能发生在几米的剖面上，但为了显示这种变化，可以在制图时使用直方图。

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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Works of Georgian Technical University

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