DRILLING PROCESS MONITORING FOR REFINING AND UPGRADING ROCK MASS QUALITY CLASSIFICATION METHODS

Q2 Earth and Planetary Sciences 岩石力学与工程学报 Pub Date : 2014-01-01 DOI:10.13722/J.CNKI.JRME.2014.10.005
Q. Yue
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引用次数: 27

Abstract

A new technique,a new method and a new law were put forward for the refinements and upgrading of current engineering rock mass quality classification methods,i.e. the automatic drilling process monitoring(DPM) technique,the fast and direct time-series analysis of the DPM data and the DPM based findings that the curve of the drill bit advancement depth versus the net drilling time can be easily measured and calculated and that it can be represented as a set of connected linear lines. Each linear line zone has a constant slope gradient or drilling speed and represents an intact and homogeneous rock block. The position of the curve slope gradient jump between any two connected linear zones represents a discontinuity plane. DPM can offer a new measurement method and many factual data for the refinements and upgrading. Consequently,the uniaxial compressive strengths,sizes and spatial locations of rock material blocks and the associated discontinuities in underground can be rapidly,effectively,objectively and quantitatively measured and estimated. Case studies are given to illustrate,explain and describe the new technique,the new method and the new law. The approach and its associated equations were presented to refine and upgrade the current RQD,Q,RMR and BQ methods for rock mass quality classifications. The methods for objectively and effectively measure were included and the rock strength,RQD,rock mass integrity,rock hardness and discontinuities were estimated.
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钻孔过程监测改进和改进岩体质量分级方法
提出了一种新技术、新方法和新规律,对现有工程岩体质量分级方法进行了改进和升级。钻井过程自动监测(DPM)技术、DPM数据的快速、直接的时间序列分析以及基于DPM的钻头推进深度与净钻井时间的曲线可以很容易地测量和计算,并且可以表示为一组相互连接的线性线。每条线状带具有恒定的坡度或钻速,代表一个完整且均匀的岩块。任意两个连通的线性区域之间的曲线斜率梯度跳变位置表示一个不连续平面。DPM可以为改进和升级提供一种新的测量方法和许多实际数据。从而可以快速、有效、客观、定量地测量和估计地下岩体块体及其相关结构面单轴抗压强度、大小和空间位置。通过案例分析来说明、解释和描述新技术、新方法和新规律。提出了该方法及其相关方程,对现有岩体质量分类的RQD、Q、RMR和BQ方法进行了改进和升级。提出了客观有效的测量方法,并对岩石强度、RQD、岩体完整性、岩石硬度和不连续面进行了估计。
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来源期刊
岩石力学与工程学报
岩石力学与工程学报 Earth and Planetary Sciences-Geology
CiteScore
4.70
自引率
0.00%
发文量
13155
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