Views: 14 Author: Site Editor Publish Time: 2024-09-03 Origin: Site
The seismic reflection exploration technology plays a key role in the exploration of siliceous iron ore deposits. This technology analyzes the characteristics of underground rock strata reflection waves, helping to determine the location, morphology, and nature of ore bodies, and providing important geological information for the exploration of siliceous iron ore deposits. In addition, geophysical methods such as gravity and magnetic surveys are often combined with seismic reflection exploration technology to collectively promote the discovery and development of mineral resources.
Siliceous iron ore deposits are usually associated with the contact zone between the Late Mesozoic Yanshan diorite and the Ordovician carbonate rocks. Through seismic reflection exploration technology, changes in strata, anomalies, and physical properties can be detected, aiding in the identification of potential distribution areas for siliceous iron ore deposits. Furthermore, combining the results of magnetic surveys can help to discover the relationship between magnetic anomalies and ore bodies, further establishing the direction and scope of exploration in mining areas.
In the Qihui-Yucheng area of Shandong, deep ore-finding information beneath the deep cover layer was obtained through comprehensive studies of magnetic data. Based on this data, a breakthrough in the exploration of siliceous iron ore deposits was successfully achieved, confirming the existence of ore deposits and proving the relationship between underground ore bodies and magnetic anomalies, providing important references and guidance for subsequent deep ore-finding work.
In summary, the integrated application of seismic reflection exploration technology and geophysical exploration methods is of great significance for the exploration of siliceous iron ore deposits, playing a key role in determining the distribution of ore bodies, exploration direction, and scope. The application of these technologies provides reliable scientific basis for the exploration and development of mineral resources, offering important support for the mining industry.