岩石原位块体尺寸估计(Estimation of in site rock block size)
1 引言
原位块体尺寸对支护设计和爆破设计有着直接的影响。在近期评估的两个地下采矿项目中,都使用了干式充填法。与崩落采矿法类似,控制充填块体尺寸是这种采矿方法的关键,因此想到了岩石原位块体尺寸的估算方法。于是使用SSGeotech数据集快速地检查了目前的研究状态。
2 检索结果
SSGeotech目前共有70,475篇论文,由于以前没有特别关注这个topic, 可能会遗漏一些最重要的论文。
[1] Influence of data analysis when exploiting DFN model representation in the application of rock mass classification systems
[2] Effects Of Block Size On The Shear Behavior Of Jointed Rock
[3] The Impact of Fracture Persistence and Intact Rock Bridge Failure on the In Situ Block Area Distribution
[4] Using terrestrial 3D laser scanning and optical methods to determine orientations of discontinuities at a granite quarry
[5] Applying photogrammetry and semi-automated joint mapping for rock mass characterization
[6] New Prediction Models for Mean Particle Size in Rock Blast Fragmentation
[7] Probabilistic estimate of rock mass static and dynamic demands for underground excavation stabilisation
[8] Fracture Frequency and Block Volume Distribution in Rock Masses
[9] Estimation of the in situ Block Size in Jointed Rock Masses using Three-Dimensional Block Simulations and Discontinuity Measurements
[10] Block size determination around underground openings using simulations
[11] Measurement of the fragmentation efficiency of rock mass blasting and its mining applications
[12] Incorporating DFN Analysis in Rock Engineering Systems Blast Fragmentation Models
[13] Optimization methods for the evaluation of the parameters of a rockfall fractal fragmentation model
[14] An empirical approach to rockfall fragmentation
[15] Estimation of the in situ Block Size in Jointed Rock Masses using Three-Dimensional Block Simulations and Discontinuity Measurements
[16] Comparison between methods for calculating the volume of rock blocks
[17] Emergent Properties of MoFrac-Generated Discrete Fracture Networks
[18] In Situ Block Size Distribution Aimed at the Choice of the Design Block for Rockfall Barriers Design
[19] A fractal fragmentation model for rockfalls
[20] A Mathematical Model Of Rock Breakage By Blasting
[21] A Method to Estimate In Situ Block Size Distribution
[22] Measurement of the fragmentation efficiency of rock mass blasting and its mining applications
[23] DFN Variability Analysis Through Voxelization
[24] Constraining the Spatial Distribution of Fracture Networks in Naturally Fractured Reservoirs Using Fracture Mechanics and Core Measurements
[25] Derivation of space-resolved normal joint spacing and in situ block size distribution data from terrestrial LIDAR point clouds in a rugged Alpine relief
[26] Determination of the In situ Block Size Distribution in Fractured Rock, an Approach for Comparing In-situ Rock with Rock Sieve Analysis
[27] An investigation into the effects of block size distribution function on the strength of bimrocks based on large-scale laboratory tests
[28] Example of a Determination of the in situ Block Size Distribution based on Borehole Loggings and Surface Mappings
[29] Estimation of rock block size distribution for determination of Geological Strength Index (GSI) using discrete fracture networks (DFNs)
