地球学报
地毬學報
지구학보
ACTA GEOSCIENTIA SINICA
2014年
3期
295-304
,共10页
付伟%冯佐海%黄永高%柴明春%康志强%余勇%杨梦力%江超强
付偉%馮佐海%黃永高%柴明春%康誌彊%餘勇%楊夢力%江超彊
부위%풍좌해%황영고%시명춘%강지강%여용%양몽력%강초강
铀酰矿物%铀矿床%氧化带%花山%广西
鈾酰礦物%鈾礦床%氧化帶%花山%廣西
유선광물%유광상%양화대%화산%엄서
uranyl minerals%U deposit%oxidized belt%Huashan%Guangxi
本文分析了广西花山铀矿床氧化带中铀酰矿物的类型、组合及赋存特征,探讨铀酰矿物的成因机制及其对深部铀矿体勘查的指示意义。研究发现,花山铀矿床氧化带中铀酰矿物的类型非常复杂,长冲、白石脚和糙米坪等三个矿点出现不同的铀酰矿物组合。长冲矿点发育准钙铀云母、钙铀云母和硅钙铀矿等铀酰磷酸盐和铀酰硅酸盐组合,铀酰矿物的阳离子组分以富Ca为特点;白石脚矿点出现硅铅铀矿和斜磷铅铀矿等铀酰硅酸盐组合,铀酰矿物的阳离子组分以富Pb为特点;糙米坪矿点出现翠砷铜铀矿、铜铀云母和脂状铅铀矿等铀酰磷酸盐、铀酰砷酸盐和铀酰氢氧化物组合,铀酰矿物的阳离子组分以富Cu和As等为特点。花山铀矿床中的铀酰矿物是原生铀矿物(推断为沥青铀矿)在氧化环境下发生次生沉淀作用而形成的,三个矿点铀酰矿物组合的差异归因于原生铀矿体元素地球化场、地下水中络阴离子类型和地下水介质 pH 环境等多种因素的耦合。研究认为,铀矿床氧化带中的铀酰矿物对于指导深部盲矿勘查具有一定的指示意义。在花山地区,铀酰矿物沿断裂带出现大规模的垂向分布,它的发育位置大致记录了原生铀矿体的产状特征,而铀酰矿物的含量和类型则有助于提供原生铀矿石品位和硫化物含量等重要的成矿信息。本研究预测,在花山矿区内的糙米坪和白石脚矿点仍然存在发现氧化型铀矿体的良好潜力。
本文分析瞭廣西花山鈾礦床氧化帶中鈾酰礦物的類型、組閤及賦存特徵,探討鈾酰礦物的成因機製及其對深部鈾礦體勘查的指示意義。研究髮現,花山鈾礦床氧化帶中鈾酰礦物的類型非常複雜,長遲、白石腳和糙米坪等三箇礦點齣現不同的鈾酰礦物組閤。長遲礦點髮育準鈣鈾雲母、鈣鈾雲母和硅鈣鈾礦等鈾酰燐痠鹽和鈾酰硅痠鹽組閤,鈾酰礦物的暘離子組分以富Ca為特點;白石腳礦點齣現硅鉛鈾礦和斜燐鉛鈾礦等鈾酰硅痠鹽組閤,鈾酰礦物的暘離子組分以富Pb為特點;糙米坪礦點齣現翠砷銅鈾礦、銅鈾雲母和脂狀鉛鈾礦等鈾酰燐痠鹽、鈾酰砷痠鹽和鈾酰氫氧化物組閤,鈾酰礦物的暘離子組分以富Cu和As等為特點。花山鈾礦床中的鈾酰礦物是原生鈾礦物(推斷為瀝青鈾礦)在氧化環境下髮生次生沉澱作用而形成的,三箇礦點鈾酰礦物組閤的差異歸因于原生鈾礦體元素地毬化場、地下水中絡陰離子類型和地下水介質 pH 環境等多種因素的耦閤。研究認為,鈾礦床氧化帶中的鈾酰礦物對于指導深部盲礦勘查具有一定的指示意義。在花山地區,鈾酰礦物沿斷裂帶齣現大規模的垂嚮分佈,它的髮育位置大緻記錄瞭原生鈾礦體的產狀特徵,而鈾酰礦物的含量和類型則有助于提供原生鈾礦石品位和硫化物含量等重要的成礦信息。本研究預測,在花山礦區內的糙米坪和白石腳礦點仍然存在髮現氧化型鈾礦體的良好潛力。
본문분석료엄서화산유광상양화대중유선광물적류형、조합급부존특정,탐토유선광물적성인궤제급기대심부유광체감사적지시의의。연구발현,화산유광상양화대중유선광물적류형비상복잡,장충、백석각화조미평등삼개광점출현불동적유선광물조합。장충광점발육준개유운모、개유운모화규개유광등유선린산염화유선규산염조합,유선광물적양리자조분이부Ca위특점;백석각광점출현규연유광화사린연유광등유선규산염조합,유선광물적양리자조분이부Pb위특점;조미평광점출현취신동유광、동유운모화지상연유광등유선린산염、유선신산염화유선경양화물조합,유선광물적양리자조분이부Cu화As등위특점。화산유광상중적유선광물시원생유광물(추단위력청유광)재양화배경하발생차생침정작용이형성적,삼개광점유선광물조합적차이귀인우원생유광체원소지구화장、지하수중락음리자류형화지하수개질 pH 배경등다충인소적우합。연구인위,유광상양화대중적유선광물대우지도심부맹광감사구유일정적지시의의。재화산지구,유선광물연단렬대출현대규모적수향분포,타적발육위치대치기록료원생유광체적산상특정,이유선광물적함량화류형칙유조우제공원생유광석품위화류화물함량등중요적성광신식。본연구예측,재화산광구내적조미평화백석각광점잉연존재발현양화형유광체적량호잠력。
This study aims at revealing the mineralogical characteristics of the uranyl minerals from the oxidized zone of the Huashan deposit in Guangxi and investigating their genetic mechanism in relation to deep ore exploration. The authors have found that there are different mineral assemblages in the three ore spots of the study area, with the assemblage of meta-autunite, autunite and uranophane in the Changchong ore spot, that of kasolite and parsonsite in the Baishijiao ore spot, and that of zeunerite, torbernite and gummite in the Zhaomiping ore spot. These uranyl minerals were derived from the primary U-bearing mineral (uraninite) and formed by the secondary precipitation process in an oxidation environment. Different uranyl mineral assemblages in the three ore spots are attributed to element geochemical backgrounds of the primary ore bodies, types of the complex anions in the groundwater solutions, and Ph values of the U-bearing groundwater. This study indicates that the uranyl minerals can provide important clues for deep exploration; for example, the uranyl minerals are extensively developed along the faults, and their characteristics have recorded the location of the primary ore body and the information of the primary ore grade and sulfide content. It is held that there are good potentials for further prospecting in the Baishijiao and Zhaomiping ore spots.
