Abstract:Aiming at the problem of reliability in stereoscopic quantitative prediction of concealed ore body, and the problem of geological basis shortage and multi-solutions in magnetic forward and inverse models, a new method combining the voxel model of stereoscopic prediction of concealed ore body with magnetic forward model at the quantitative level was put forward. By use of the voxel model and the formula for magnetic charge surface integral, the mathematical model of the total magnetic field anomalies based on the voxel model of stereoscopic prediction of concealed ore bodies was deduced, the algorithm and software for solving the model were designed and developed. A case study was performed in Dingjiashan lead-zinc deposit in Youxi County, Fujian Province, China. The total magnetic field anomalies of the study area were achieved, the contour maps about theoretical total magnetic field anomalies were drawn on the basis of the known mineralization bodies, the amalgam of the predictive mineralization bodies and the known mineralization bodies, and the comparison analysis between the theoretical contour maps and the actual contour maps was made. The results show that this method, taking the voxel model as the link bridge, can achieve the coupling and complementarities of the stereoscopic quantitative prediction results of concealed ore bodies with the magnetic body forward results, and test the accuracy of the prediction results, and effectively lower the risk of the prediction of concealed ore bodies.

Key words: stereoscopic prediction of concealed ore body; voxel model; magnetic forward model