论文部分内容阅读
据专家透露,此项规划工程的实施旨在对澳大利亚范围内的铀矿成矿系统进行全面的调查与研究。通过矿床—矿区—成矿带等多尺度视角,研究人员总结并建立起铀矿成因模型及空间控矿规律系统。研究人员表示,深刻理解铀矿的成矿过程中占主导因素的地质作用,对于已知区和未知区的成矿潜力预测与评价具有重大意义。同时,含铀地质单元在澳大利亚的许多地区均被风化层或年轻的沉积岩所覆盖,因此该系统工程对于在覆盖区开展找铀工作尤显重要。
According to experts, the implementation of this planning project aims to conduct a comprehensive investigation and study of uranium ore-forming systems within Australia. Through the multi-scale perspectives of ore deposits, ore zones and metallogenic belts, the researchers summed up and established the genesis model of uranium deposits and the system of space-controlled ore-holding. The researchers said a profound understanding of the geological role of uranium metallogenesis in the mineralization process is of great significance for the prediction and evaluation of the metallogenic potential of known and unknown areas. At the same time, uranium-bearing geological units are covered by weathered or young sedimentary rocks in many parts of Australia and are therefore of particular importance for uranium enrichment efforts in the covered area.