The oxygen isotopic composition as an indicator of the genesis of “Basaltic” corundum     

S. V. Vysotsky  V. V. Yakovenko  A. V. Ignat’ev  A. A. Karabtsov 《Russian Journal of Pacific Geology》2009,3(1):64-68

This paper reports an oxygen isotopic study of corundums and associated minerals from the Yogo lamprophyres (Montana, US), plagioclase-corundum inclusions in alkali basalt (Tunkin depression, Russia), and from modern alluvium of Podgelbanochnyi alkaline basaltic volcano (Primorye, Russia). It is shown that all sapphires genetically related to mafic magmatic rocks have a similar oxygen isotopic composition (the variations of δ¹⁸O are within 2.5‰) with most values plotting between +4.5 and +7.0‰ SMOW. The oxygen isotopic ratios in the associated minerals (olivines, pyroxenes, mica, and others) and host rocks are plotted in the same interval. This indicates that the sapphire crystallized during evolution of the parental mafic magma. However, there are xenogenic corundums, which were only transported by basaltic magma to the Earth’s surface. They have a sharply distinct oxygen isotopic composition, which suggests their disequilibrium with the host lavas, and, correspondingly, a different genetic nature.  相似文献   

新疆阿克陶红蓝宝石矿床矿物学研究   总被引：3，自引：0，他引：3  

王礼胜  何明跃 《现代地质》1997,11(1):36-43,T001

新疆阿克陶红蓝宝石矿床含矿岩石具有典型的眼球状、条带状混合岩化构造。浅色脉体中的钾长石有序度很低，属单斜正长石，其中部分发育钠长石出溶条纹。基体中出现富铝矿物矽线石和电气石，黑云母中Ａｌ２Ｏ３含量高；斜长石Ａｎ值低，为钠长石。含矿岩石为富铝贫硅低钙质岩石。脉体中的红蓝宝石晶体中发现大量流体熔融包裹体。红蓝宝石矿床为混合岩化作用成因，形成于高温低压条件下  相似文献   

Si^4＋及过渡金属离子在蓝宝石呈色中的作用——数学分析法在离子致色研究中的应用          下载免费PDF全文

吴瑞华  朱凤福等 《地质论评》2001,47(3):255-260

理想晶体（包括蓝宝石）的颜色与占据其晶格的微量过渡金属元素的种类及含量有直接的关系。玄武岩产状的蓝宝石中含有多种微量元素，这些元素是蓝宝石致色的直接因素。本文通过研究发现，每种微量元素均对可见光的特定波段产生不同程度的吸收，其中，Fe^3 ,Si^4 是使蓝宝石呈现蓝色的主要离子，Cr^3 离子可使蓝宝石呈橙和绿色，Mn^4 离子可使蓝宝石呈黄色，Co^2 离子也可使蓝宝石呈蓝色。本文还做出了蓝宝石中每种微量元素对可见光的特征吸收图即波长－吸收系数图，与分子轨道理论值吻合，把蓝宝石中各离子对可见光的吸收位置和相对吸收强度统一起来。  相似文献   

山东蓝宝石的呈色机制及改色试验   总被引：5，自引：2，他引：5  

李广慧  韩丽  何文 《岩石矿物学杂志》2002,21(1):89-92

利用穆斯堡尔谱分析结果以及前人光谱分析等资料，从铁离子的价态入手，重新确立了山东蓝宝石的呈色机制，确定出致蓝因素与致黑因素。认为Fe^2 与Ti^4 对可见光565nm的吸收是使蓝宝石产生美丽蓝色调的原因，而Fe^3 对可见光442nm的吸收是使蓝宝石呈黑色的原因，并在此基础上进行了以消除Fe^3 、保障并增加Fe^2 和Ti^4 为宗旨的改色实验，取得了较好的效果。  相似文献   

山东蓝宝石资源的特征及其开采利用方向          下载免费PDF全文

韩美 《地球科学》2000,25(6):599-603

运用野外实地考察、钻孔勘探、室内样品分析等方法, 对山东蓝宝石的赋存特征与规律进行了研究, 对蓝宝石的质量做了深入探讨, 并针对其特点提出了今后找矿和加工利用的方向   相似文献   

吉林省新生代玄武岩中红、蓝宝石矿找矿方向     

靳克  管宏图  于明宽  殷淑芹  郭真  贾海明  楚湘涛  任建超  王馨莹 《世界地质(英文版)》2014,(3)

通过收集前人资料和野外地质调查及地球化学分析,对中国东部发育红、蓝宝石矿的不同地区进行了对比研究,进而从寄主岩类型、寄主岩形成时代和火山机构四周发育的第四系沉积物特征角度,提出了吉林省应将伊舒带、敦密带、东宁-宽甸带作为首选的红、蓝宝石找矿方向。  相似文献   

缅甸抹谷Baw-mar矿区蓝宝石的热处理及谱学研究     

陈思明  谭红琳  祖恩东  申南玉 《岩石矿物学杂志》2022,41(4):857-864

目前缅甸抹谷矿区开采的蓝宝石原石约80%都要经过优化处理才能投入市场,其中主要为热处理。本文对缅甸抹谷Baw-mar矿区蓝宝石进行不同温度制度的热处理,并利用电子探针、X射线粉晶衍射仪(XRD)、紫外-可见-近红外光谱仪、傅里叶红外光谱仪和激光拉曼光谱仪对其热处理前后的谱学特征进行了对比研究。结果表明,1 300℃热处理后所有样品2θ<60°的XRD衍射峰开始向低角度方向偏移,晶胞参数c/a值随热处理温度升高而降低,推测与其晶体结构在高温下发生畸变有关;Baw-mar矿区蓝宝石的主要致色元素是Fe、Ti和V,其中Fe和Ti共同导致其呈蓝色,V使其略带绿色调,部分样品的灰色调主要由Ni所致;热处理后样品中Fe²⁺-Ti⁴⁺荷移增强,Fe²⁺-Fe³⁺荷移减弱,导致585 nm紫外吸收带增强,746和764 nm吸收峰减弱,同时样品颜色变蓝且灰色调减弱;红外光谱中,样品出现1 988、2 123 cm^-1硬水铝石羟基倍频振动吸收峰和3 619、3 696 cm^-1<...  相似文献   

山东蓝宝石的宝石矿物学特征   总被引：6，自引：0，他引：6       下载免费PDF全文

余晓艳 《岩矿测试》1999,18(1):41-45,49

对山东蓝宝石进行了系统的宝石矿物学研究,描述了山东蓝宝石的形态,大小,结构及包裹体特征,运用电子探针,粉晶Ｘ射线分析,顺磁共振光谱及化学全分析等测试手段,揭示了山东蓝宝石的成分,结构和物性之间的相互关系。  相似文献   

山东蓝宝石原生矿床成因探讨   总被引：15，自引：0，他引：15  

董振信  杨良锋  王月文 《地球学报》1999,20(2):177-183

山东昌乐地区广泛分布晚第三纪碱性玄武岩。该时代的玄武岩浆喷出活动在构造上受到大陆裂谷型沂沐断裂带的控制。玄武岩浆活动是喷溢型而不是喷发型。富含蓝宝石的寄主玄武岩比不含蓝宝石的玄武岩含Ｎａ２Ｏ＋Ｋ２Ｏ、Ａｌ２Ｏ３和ＴｉＯ２高,而含ＳｉＯ２低,其成分投影点落入（Ｋ２Ｏ＋Ｎａ２Ｏ）－ＳｉＯ２图中的碱性玄武岩区。含蓝宝石的玄武岩中含有大量的二辉橄榄岩,该种岩石是上地幔部分熔融出玄武岩熔体后的上地幔残留物。二辉橄榄岩中的矿物都处于平衡状态。用地质温度和压力计估算的二辉橄榄岩中的矿物平衡温度和压力分别为１１００℃和１．５ＧＰａ。蓝宝石是碱性玄武岩浆早期结晶的产物,而且与单斜辉石、长石、石榴石和锆石巨晶共生。  相似文献   

Gold- and diamond-bearing White Hills Gravel,St Arnaud district,Victoria: age and provenance based on U – Pb dating of zircon and rutile     

W. D. Birch  L. M. Barron  C. Magee  F. L. Sutherland 《Australian Journal of Earth Sciences》2013,60(4):609-628

Investigation of coarse (>2 mm) heavy-mineral concentrates from the White Hills Gravel near St Arnaud in western Victoria provides new evidence for the age and provenance of this widespread palaeoplacer formation. A prominent zircon – sapphire – spinel assemblage is characteristic of Cenozoic basaltic-derived gemfields in eastern Australia, while a single diamond shows similar features to others found in alluvial deposits in northeastern Victoria and New South Wales. Dating of two suites of zircons by fission track and U – Pb (SHRIMP) methods gave overlapping ages between 67.4 ± 5.2 and 74.5 ± 6.3 Ma, indicating a maximum age of Late Cretaceous for the formation. Another suite of minerals includes tourmaline (schorl – dravite), andalusite, rutile and anatase, which are probably locally derived from contact metamorphic aureoles in Cambro-Ordovician basement metapelites intruded by Early Devonian granites. U – Pb dating of rutile grains by laser ablation ICPMS gave an age of 393 ± 10 Ma, confirming an Early Devonian age for the regional granites and associated contact metamorphism. Other phases present include pseudorutile, metamorphic corundum of various types, maghemite and hematite, which have more equivocal source rocks. A model to explain the diverse sources of these minerals invokes recycling and mixing of the far-travelled basalt-derived suite with the less mature, locally derived metamorphic suite. Some minerals have probably been recycled from Mesozoic gravels through Early Cenozoic (Paleocene – Eocene) drainage systems during various episodes of weathering, ferruginisation and erosion. Comparison between heavy-mineral assemblages in occurrences of the White Hills Gravel may allow distinction between depositional models advocating either separate drainage networks or coalescing sheets. Such assemblages may also provide evidence for the present-day divide in the Western Uplands being the youngest expression of an old (Late Mesozoic – Early Cenozoic) stable divide separating north- and south-flowing streams or a much younger feature (ca 10 Ma) which disrupted mainly south-flowing drainage.  相似文献