江西武山南矿带辉钼矿的成矿分析

江西武山南矿带辉钼矿的成矿分析Title: Ore-Deposit Analysis of the Huimolybdenum Deposit in Wushan South Mine, Jiangx

江西武山南矿带辉钼矿的成矿分析 Title: Ore-Deposit Analysis of the Huimolybdenum Deposit in Wushan South Mine, Jiangxi Province, China Abstract: The Huimolybdenum deposit, located in the Wushan South Mine in Jiangxi Province, China, is asignificant ore deposit with economic value. In this study, we aim to analyze and understand the formation process and characteristics of this molybdenum deposit. We conducted a detailed investigation of the geological features, mineralogy, geochemical composition, and ore-controlling factors of the Huimolybdenum deposit. The findings reveal that the Huimolybdenum deposit in Jiangxi Province has unique characteristics compared to other molybdenum deposits worldwide. 1. Introduction: The Huimolybdenum deposit is one of the primary molybdenum deposits in Jiangxi Province, which is abundant in mineral resources. In recent years, the exploration and development of molybdenum deposits have become ahot research topic. This study contributes to the understanding of the molybdenum mineralization process in the Huimolybdenum deposit and provides useful insights for further exploration and exploitation of similar ore deposits. 2. Geological Setting: The Huimolybdenum deposit is located within the Wushan South Mine in Jiangxi Province, situated in the southern margin of the South China Block. The region is characterized by diverse lithologies, including sedimentary rocks, volcanic rocks, and granitic intrusions. The deposit occurs within aquartz vein system associated with the contact zones of the granitic intrusions. 3. Mineralogy: The Huimolybdenum deposit primarily consists of molybdenite, the main ore mineral, occurring as disseminations or vein-like structures. Other associated mineralizations include pyrite, chalcopyrite, and minor amounts of scheelite and bismuth-bearing minerals. Petrographical and mineralogical studies reveal that the mineralization is mainly hydrothermal in origin. 4. Geochemical Analysis: