电子显微学报
電子顯微學報
전자현미학보
JOURNAL OF CHINESE ELECTRON MICROSCOPY SOCIETY
2014年
1期
46-54
,共9页
陈浦浦%尹京武%聂潇%闫星光%王梦亚%徐海明%王军%刘林生
陳浦浦%尹京武%聶瀟%閆星光%王夢亞%徐海明%王軍%劉林生
진포포%윤경무%섭소%염성광%왕몽아%서해명%왕군%류림생
平利县%易解石%电子探针%矿物学
平利縣%易解石%電子探針%礦物學
평리현%역해석%전자탐침%광물학
Pingli county%aeschynite%EPMA%mineralogy
利用电子探针分析,背散射形貌分析和元素面分布及定量分析等手段,对陕西省平利县朱家院碱性岩中的易解石进行了研究。结果表明:朱家院碱性岩中易解石主要有不规则粒状和细脉状两种产状,粒状易解石粒径在10~100μm,常与金红石、钠铁闪石等矿物伴生;脉状易解石切割脉状褐帘石,显示脉状易解石为后期形成。两种易解石中Nb,Ta,Ti,Ce,Nd等元素分布均均匀;稀土含量相对较高,有富轻稀土,贫重稀土的特征,其中Ce和Nd的含量高。脉状易解石中Nb,Ta含量高于粒状易解石,Ti含量低于后者;根据成分确定,脉状易解石为铌易解石,粒状易解石为易解石-铌易解石过渡型。
利用電子探針分析,揹散射形貌分析和元素麵分佈及定量分析等手段,對陝西省平利縣硃傢院堿性巖中的易解石進行瞭研究。結果錶明:硃傢院堿性巖中易解石主要有不規則粒狀和細脈狀兩種產狀,粒狀易解石粒徑在10~100μm,常與金紅石、鈉鐵閃石等礦物伴生;脈狀易解石切割脈狀褐簾石,顯示脈狀易解石為後期形成。兩種易解石中Nb,Ta,Ti,Ce,Nd等元素分佈均均勻;稀土含量相對較高,有富輕稀土,貧重稀土的特徵,其中Ce和Nd的含量高。脈狀易解石中Nb,Ta含量高于粒狀易解石,Ti含量低于後者;根據成分確定,脈狀易解石為鈮易解石,粒狀易解石為易解石-鈮易解石過渡型。
이용전자탐침분석,배산사형모분석화원소면분포급정량분석등수단,대합서성평리현주가원감성암중적역해석진행료연구。결과표명:주가원감성암중역해석주요유불규칙립상화세맥상량충산상,립상역해석립경재10~100μm,상여금홍석、납철섬석등광물반생;맥상역해석절할맥상갈렴석,현시맥상역해석위후기형성。량충역해석중Nb,Ta,Ti,Ce,Nd등원소분포균균균;희토함량상대교고,유부경희토,빈중희토적특정,기중Ce화Nd적함량고。맥상역해석중Nb,Ta함량고우립상역해석,Ti함량저우후자;근거성분학정,맥상역해석위니역해석,립상역해석위역해석-니역해석과도형。
The aeschynite from alkaline trachyte in Zhujiayuan of Pingli county, Shanxi province was studied using electron microprobe analysis, back scattering morphology, element distribution and quantitative analysis methods. The results show that the aeschynite has irregular granular and fine vein two main occurrences, and the irregular granular aeschynite is in particle size from 10 to 100 μm and usually accompanies with rutile and arfvedsonite. The fine vein aeschynite cuts the nervation allanite, and it shows that the fine vein aeschynite forms in the later stage. The Nb, Ta, Ti, Ce and Nd element are homogeneous distribution in the two kinds of aeschynite. The rare element content in the two aeschynites is relatively high, and has characteristics of rich in LREE, especially the Ce and Nd, and poor in HREE. The content of Nb and Ta in the fine vein aeschynite is higher than that in the granular aeschynite, but Ti is lower. According to the compositions, the fine vein aeschynite and the granular aeschynite are classified as nioboaeschynite and aeschynite -nioboaeschynite, respectively.
