物探与化探
物探與化探
물탐여화탐
GEOPHYSICAL AND GEOCHEMICAL EXPLORATION
2014年
4期
825-834
,共10页
王万银%王云鹏%李建国%刘金兰%赵斌%周新鹏
王萬銀%王雲鵬%李建國%劉金蘭%趙斌%週新鵬
왕만은%왕운붕%리건국%류금란%조빈%주신붕
盘古山地区%重%磁资料%断裂构造%花岗岩体
盤古山地區%重%磁資料%斷裂構造%花崗巖體
반고산지구%중%자자료%단렬구조%화강암체
Pangushan area%gravity and magnetic data%faults structure%granite body
盘古山地区是于都-赣县矿集区内一个重要的钨锡矿成矿区,研究区断裂构造和花岗岩体与成矿关系密切。利用重、磁资料研究盘古山地区断裂构造及花岗岩体分布,为深部找矿提供地球物理依据。利用重力异常归一化总水平导数垂向导数技术推断断裂构造平面位置;利用欧拉反褶积方法对重力异常垂向一阶导数进行反演计算,推断断裂构造平均深度;利用重磁异常垂向一阶导数技术推断花岗岩体平面位置;利用RGIS软件2.5D重磁剖面人机交互正反演技术推断花岗岩体断面位置,并用钻孔验证解释结果的正确性;利用RGIS软件3D重磁模型编辑模块展示花岗岩体空间位置。研究结果显示盘古山地区既有出露断裂,又有隐伏断裂,既有出露低密度、弱磁性花岗岩体,又有隐伏低密度、强磁性花岗岩体,花岗岩体分布受断裂构造控制,矿体分布受断裂构造和花岗岩体共同控制。
盤古山地區是于都-贛縣礦集區內一箇重要的鎢錫礦成礦區,研究區斷裂構造和花崗巖體與成礦關繫密切。利用重、磁資料研究盤古山地區斷裂構造及花崗巖體分佈,為深部找礦提供地毬物理依據。利用重力異常歸一化總水平導數垂嚮導數技術推斷斷裂構造平麵位置;利用歐拉反褶積方法對重力異常垂嚮一階導數進行反縯計算,推斷斷裂構造平均深度;利用重磁異常垂嚮一階導數技術推斷花崗巖體平麵位置;利用RGIS軟件2.5D重磁剖麵人機交互正反縯技術推斷花崗巖體斷麵位置,併用鑽孔驗證解釋結果的正確性;利用RGIS軟件3D重磁模型編輯模塊展示花崗巖體空間位置。研究結果顯示盤古山地區既有齣露斷裂,又有隱伏斷裂,既有齣露低密度、弱磁性花崗巖體,又有隱伏低密度、彊磁性花崗巖體,花崗巖體分佈受斷裂構造控製,礦體分佈受斷裂構造和花崗巖體共同控製。
반고산지구시우도-공현광집구내일개중요적오석광성광구,연구구단렬구조화화강암체여성광관계밀절。이용중、자자료연구반고산지구단렬구조급화강암체분포,위심부조광제공지구물리의거。이용중력이상귀일화총수평도수수향도수기술추단단렬구조평면위치;이용구랍반습적방법대중력이상수향일계도수진행반연계산,추단단렬구조평균심도;이용중자이상수향일계도수기술추단화강암체평면위치;이용RGIS연건2.5D중자부면인궤교호정반연기술추단화강암체단면위치,병용찬공험증해석결과적정학성;이용RGIS연건3D중자모형편집모괴전시화강암체공간위치。연구결과현시반고산지구기유출로단렬,우유은복단렬,기유출로저밀도、약자성화강암체,우유은복저밀도、강자성화강암체,화강암체분포수단렬구조공제,광체분포수단렬구조화화강암체공동공제。
Pangushan area is an important mining area inYudu-Ganxian ore district in which tungsten and tin formed, and the faults structure and granite body have great influnce in orebody formed in this mining area. The purpose of this study in which the faults struc-ture and granite body distribution of the study area are researched useing gravity and magnetic data is to provide geophysical basis for deep prospecting. We, in this paper, have done the following work: ① the plane position of the faults structure is inferred using the technique of normalizing the total horizontal derivative of vertical derivative of the gravity anomaly; ② the vertical first derivative of gravity anomaly is inversed using Euler deconvolution method, and the average depth of the faults structure is inferred;③the plane po-sition of the granite body is inferred using the vertical first derivative of gravity and magnetic anomalies;④the intersection position of the granite body is inferred using the forward and inversion techniques of 2.5D gravity and magnetic profile data in human-computer in-teraction by RGIS software, and the correctness of interpretation results is verified using borehole data; ⑤ the spatial position of the granite body is showed using the model editing module of 3D gravity and magnetic anomalies area data by RGIS software. The results show that Pangushan area has exposed faults, buried faults, exposed low density and weak magnetic granite body, buried low density and strong magnetic granite body. The granite body distribution is controlled by the faults structure, and the orebody distribution is jointly controlled by the faults structure and granite body.