利用地球物理属性来定量化研究岩体结构的成果在国内外较少见，课题拟通过位于广东花岗岩地区的CSNS工程278个浅层钻孔和11条物探测线为基础，再结合适量的室内岩芯试验和野外现场钻探物探实验，以GOCAD软件为平台，借助风化壳分带、岩芯及物探等三种数据作为属性来建立浅层花岗岩三维地质-地球物理模型：1）对不同岩体结构和岩芯长度的花岗岩进行定量化关系研究；2）在模型中对不同岩体结构与电阻率、不同岩体结构与波速进行研究并建立经验关系；3）并以岩芯为约束条件，对相同岩体结构的不同地球物理特征进行联合反演分析，得出电阻率与波速之间的经验关系。研究成果不仅对利用地球物理参数定量化研究岩体结构进行创新，还对花岗岩高山峡谷地区公路的设计施工和地质灾害防治有着重要的实用意义。

At home and abroad rare achievements about quantitative study on rock mass structure using geophysical properties, many of the engineering are often located in areas of granite. The engineering is to adopt the CSNS project in Guangdong with 278 shallow boreholes and 11 of geophysical line, combined with the right amount of indoor core test. With the GOCAD software as a platform, we use the weathering crust、core structure and Geophysical data as three attributes to create the shallow granite in three-dimensional geological - geophysical models：1）Quantitative correspondence between different rock mass structure and core length of granite; 2）Different rock mass structure and resistivity studies in the model, different rock mass structure and velocity of the regional empirical formula; 3）And with core constraints， joint inversion analysis of different geophysical characteristics of the same rock mass structure will be research. Research is not only have great theoretical significance for the quantitative description of the rock mass structure research using geophysical parameters, but also of great significance on the design and construction of highway and control of geological disasters in the granite.