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金刚石除具有独特的結晶形态外,它的表面显微結构也是异常特殊的。詳細研究金刚石表面显微結构,可以了解它在生长过程中的某些物理化学条件。 A.E.費尔斯曼、V.M.戈尔德斯密特研究了金刚石結晶形态和晶体表面显微結构后认为金刚石是岩浆早期产物,存在于深成超基性岩中;同时认为金刚石在形成过程中,在低压下常遭受溶蝕。 S.托蓝斯凱(Tolansky)系統地研究了某些金刚石表面显微結构,并且作了描述和解释。随后,苏联金刚石研究者对雅庫特金刚石矿床的金刚石表面显微結构特征亦作了系統和詳細的研究。 相似文献
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中国已經发現了金刚石砂矿床,因此一定也存在有原生矿床。下面談一下西伯利亚雅庫特地区的金刚石矿床,供同志們参考,希望能对中国同志在寻找原生金刚石矿床的工作中有所帮助。一、金伯利岩岩简分布的地质位置(见图1) 雅庫特的金伯利岩岩筒是分布在两个不同构造单元的邻接地区,即通古斯台向斜和安那巴德台背斜之間。在台背斜的隆起部分,出露的地层是古老的結晶片岩。褶皺和錯动在这里都較剧烈,其中并有閃长岩的侵入。在它的周围分布着震旦紀、寒武紀和奧陶紀的地层,褶皺较平緩。下古生代的地层,包括碳酸盐类岩在內,厚达2000米,其中有金伯利岩岩筒出現。 相似文献
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粘土矿物广泛分布于各种沉积岩中。由于粘土矿物颗粒细小、常与长石、石英、有机质等混杂在一起,要详细研究粘土矿物,必须首先进行粘土提纯。粘土提纯的方法有:超速离心机法、静水沉降法、电泳法等。通过我们近二十年来的工作实践,建立了较完善的静水沉降粘土提纯法。本文除着重介绍了这种方法外,并对电泳法也作简单介绍。 相似文献
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近几年来,为配合寻找富铁矿及其他科研任务,对冀东、辽东、豫西、川西等地的前寒武系,及庐枞、宁芜、繁昌和浙西等地的中生代火山岩地层进行了同位素年龄测定和研究。在所内外的大力支持协助下,进行了野外观察和采样,同时接受了所内外兄弟单位送来的样品及有关地层资料。我们对这些样品进行了同位素年龄测定。冀东、辽东、豫西和川西前寒武纪地层的样品,主要用Rb-Sr全岩等时线法,其中对川西的样品并用了少数K-Ar法。对庐枞、宁芜、繁昌和浙西的中生代地层样品,主要用K-Ar法。对浙西的个别样品并用了Rb-Sr全岩等时线法。对测定得到的部分年龄数据,以前曾以不同方式报道。 相似文献
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X 射线粉末法,不仅可利用其粉末图来鉴定矿物,而且,可利用粉末法求出的晶胞参数来研究矿物的化学组成、结构和成因。晶胞参数计算和修正是 X 射线粉末法的一项不可缺少的重要工作之一。利用指标化的 d 值或θ角进行最小二乘方修正的方法,已经比较成熟.在晶系和空间群未知情况下,仅仅利用 d 值进行指标化并计算其晶胞常数,虽然已经进行了许多研究,并取得了很大进展,但成功率并不令人满意。 相似文献
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Yu. A. Litvin 《Geology of Ore Deposits》2012,54(6):443-457
A diagram of the syngenesis of diamond, silicate, carbonate, and sulfide minerals and melts is compiled based on experimental data on phase relations in the heterogeneous eclogite-carbonate-sulfidediamond system at P = 7 GPa. Evidence is provided that silicate and carbonate minerals are paragenetic, whereas sulfides are xenogenic with respect to diamond. Diamond and paragenetic phases are formed in completely miscible carbonate-silicate growth melts with dissolved elemental carbon. Coherent data of physicochemical experiment and mineralogy of primary inclusions in natural diamonds allows us to prove the mantle-carbonatite theory of diamond origin. The genetic classification of primary inclusions in natural diamonds is based on this theory. The phase diagrams of syngenesis are applicable to interpretation of diamond and syngenetic minerals formation in natural magma sources. They ascertain physicochemical mechanism of natural diamond formation and conditions of entrapment of paragenetic and xenogenic mineral phases by growing diamonds. 相似文献
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为快速鉴定高温高压(HPHT)合成钻石,前人已开展了系统的发光特征和谱学特征研究,但对比性分析较少,且对电学性质和磁学性质关注不多。本文结合常规宝石学观察、高精度谱学测试以及导电性和磁性测试,对49粒无色、黄色样品进行了深入研究和对比分析。结果表明:①铁、钴、镍等金属元素的触媒残余是HPHT合成钻石的磁性来源,测试样品均能被磁强达到12000Gs的磁棒吸引。②无色HPHT合成钻石为Ⅱa+Ⅱb型钻石,硼元素的存在导致其具有良好的导电能力,且随着硼含量的增多,导电能力逐渐增强;黄色样品为Ⅰb+ⅠaA型钻石,约三分之一的孤氮转化为A集合体,揭示合成钻石在生长完成后经过了高温退火处理。③硼元素的普遍存在,以及氮元素主要以孤氮原子和A集合体的方式存在,导致了HPHT合成钻石的特征红外光谱;HPHT合成钻石中常含有氮、镍、硅等杂质元素引起的晶格缺陷,导致了特征的光致发光光谱。④无色HPHT合成钻石具有强蓝绿色荧光和磷光,黄色HPHT合成钻石具有绿色荧光,可见明显的立方体-八面体分区现象。本研究表明:谱学特征和发光特征仍然是筛查鉴定HPHT合成钻石的重要依据。现生长技术下合成的HPHT合成钻石在导电性和磁性两方面也与天然钻石存在明显差异,可以作为快速鉴定合成钻石的辅助性依据。 相似文献
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Diamond crystallization in the Fe-Co-S-C and Fe-Ni-S-C systems and the role of sulfide-metal melts in the genesis of diamond 总被引:1,自引:0,他引:1
E. I. Zhimulev A. I. Chepurov E. F. Sinyakova V. M. Sonin A. A. Chepurov N. P. Pokhilenko 《Geochemistry International》2012,50(3):205-216
Diamond crystals 0.1–0.8 carats were synthesized in experiments conducted in a BARS split-sphere multianvil high-pressure
apparatus in the systems Fe-Co-S-C and Fe-Ni-S-C at a pressure of 5.5 GPa and temperature of 1300°C. The microtextures of
the samples and the phases accompanying diamond (carbides, graphite, monoslufide solid solution, pentlandite, and taenite)
are examined in much detail, the properties of metal-sulfide-carbon alloys are discussed, and issues related to the genesis
of sulfide inclusions in diamonds and graphite crystallization in the diamond stability field are considered. The experiments
demonstrate that diamonds can be synthesized and grow in pre-eutectic metal-sulfide melts with up to 14 wt % sulfur at relatively
low P-T parameters, which correspond to the probable temperatures and pressures of natural diamond-forming processes at depths of
approximately 150 km in the Earth’s upper mantle. 相似文献
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The enigmatic appearance of cuboctahedral diamonds in ophiolitic and arc volcanic rocks with morphology and infrared characteristics similar to synthetic diamonds that were grown from metal solvent requires a critical reappraisal. We have studied 15 diamond crystals and fragments from Tolbachik volcano lava flows, using Fourier transform infrared spectrometry (FTIR), transmission electron microscopy (TEM), synchrotron X-ray fluorescence (SRXRF) and laser ablation inductively coupled plasma mass-spectrometry (LA-ICP-MS). FTIR spectra of Tolbachik diamonds correspond to typical type Ib patterns of synthetic diamonds. In TEM films prepared using focused ion beam technique, we find Mn-Ni and Mn-Si inclusions in Tolbachik diamonds. SRXRF spectra indicate the presence of Fe-Ni and Fe-Ni-Mn inclusions with Cr, Ti, Cu, and Zn impurities. LA-ICP-MS data show variable but significantly elevated concentrations of Mn, Fe, Ni, and Cu reaching up to 70 ppm. These transition metal concentration levels are comparable with those determined by LA-ICP-MS for similar diamonds from Tibetan ophiolites. Mn-Ni (+Fe) solvent was widely used to produce industrial synthetic diamonds in the former USSR and Russia with very similar proportions of these metals. Hence, it appears highly probable that the cuboctahedral diamonds recovered from Kamchatka arc volcanic rocks represent contamination and are likely derived from drilling tools or other hard instruments. Kinetic data on diamond dissolution in basaltic magma or in fluid phase demonstrate that diamond does not form under the pressures and temperature conditions prevalent within the magmatic system beneath the modern-day Klyuchevskoy group of arc volcanoes. We also considered reference data for inclusions in ophiolitic diamonds and compared them with the composition of solvent used in industrial diamond synthesis in China. The similar inclusion chemistry close to Ni70Mn25Co5 for ophiolitic and synthetic Chinese diamonds scrutinized here suggests that most diamonds recovered from Tibetan and other ophiolites are not natural but instead have a synthetic origin. In order to mitigate further dubious reports of diamonds from unconventional tectonic settings and source rocks, we propose a set of discrimination criteria to better distinguish natural cuboctahedral diamonds from those produced synthetically in industrial environments and found as contaminants in mantle- and crust-derived rocks. 相似文献
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Yu. A. Litvin P. G. Vasil’ev A. V. Bobrov V. Yu. Okoemova A. V. Kuzyura 《Geochemistry International》2012,50(9):726-759
A generalized diagram was constructed for the compositions of multicomponent heterogeneous parental media for diamonds of kimberlite deposits on the basis of the mantle carbonatite concept of diamond genesis. The boundary compositions on the diagram of the parental medium are defined by the components of minerals of the peridotite and eclogite parageneses, mantle carbonatites, carbon, and the components of volatile compounds of the C-O-H system and accessory phases, both soluble (chlorides, phosphates, and others) and insoluble (sulfides and others) in carbonate-silicate melts. This corresponds to the compositions of minerals, melts, and volatile components from primary inclusions in natural diamonds, as well as experimental estimations of their phase relations. Growth media for most natural diamonds are dominated by completely miscible carbonate-silicate melts with dissolved elemental carbon. The boundary compositions for diamond formation (concentration barriers of diamond nucleation) in the cases of peridotite-carbonate and eclogite-carbonate melts correspond to 30 wt % peridotite and 35 wt % eclogite; i.e., they lie in the carbonatite concentration range. Phase relations were experimentally investigated at 7 GPa for the melting of the multicomponent heterogeneous system eclogite-carbonatite-sulfide-diamond with a composition close to the parental medium under the conditions of the eclogite paragenesis. As a result, “the diagram of syngenesis” was constructed for diamond, as well as paragenetic and xenogenic mineral phases. Curves of diamond solubility in completely miscible carbonate-silicate and sulfide melts and their relationships with the boundaries of the fields of carbonate-silicate and sulfide phases were determined. This allowed us to establish the physicochemical mechanism of natural diamond formation and the P-T conditions of formation of paragenetic silicate and carbonate minerals and coexistence of xenogenic sulfide minerals and melts. Physicochemical conditions of the capture of paragenetic and xenogenic phases by growing diamonds were revealed. Based on the mantle carbonatite concept of diamond genesis and experimental data, a genetic classification of primary inclusions in natural diamond was proposed. The phase diagrams of syngenesis of diamond, paragenetic, and xenogenic phases provide a basis for the analysis of the physicochemical history of diamond formation in carbonatite magma chambers and allow us to approach the formation of such chambers in the mantle material of the Earth. 相似文献
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To elucidate the conditions of formation of epigenetic graphite inclusions in natural diamond, we carried out experiments on high-temperature treatment of natural and synthetic diamond crystals containing microinclusions. The crystal annealing was performed in the CO–CO2 atmosphere at 700–1100 °C and ambient pressure for 15 min to 4 h. The starting and annealed diamond crystals were examined by optical microscopy and Raman spectroscopy. It has been established that the microinclusions begin to change at 900 °C. A temperature increase to 1000 °C induces microcracks around the microinclusions and strong stress in the diamond matrix. The microinclusions turn black and opaque as a result of the formation of amorphous carbon at the diamond–inclusion interface. At 1100 °C, ordered graphite in the form of hexagonal and rounded plates is produced in the microcracks. A hypothesis is put forward that graphitization in natural diamond proceeds by the catalytic mechanism, whereas in synthetic diamond it is the result of pyrolysis of microinclusion hydrocarbons. The obtained data on the genesis of graphite microinclusions in diamond are used to evaluate the temperature of kimberlitic melt at the final stage of formation of diamond deposits. 相似文献
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Diamonds and their mineral inclusions are valuable for studying the genesis of diamonds, the characteristics and processes of ancient lithospheric mantle and deeper mantle. This has been paid lots of attentions by geologists both at home and abroad. Most diamonds come from lithospheric mantle. According to their formation preceded, accompanied or followed crystallization of their host diamonds, mineral inclusions in diamonds are divided into three groups: protogenetic, syngenetic and epigenetic. To determine which group the mineral inclusions belong to is very important because it is vital for understanding the data’s meaning. According to the type of mantle source rocks, mineral inclusions in diamonds are usually divided into peridotitic (or ultramafic) suite and eclogitic suite. The mineral species of each suite are described and mineralogical characteristics of most common inclusions in diamonds, such as olivine, clinopyroxene, orthopyroxene, garnet, chromite and sulfide are reviewed in detail. In this paper, the main research fields and findings of diamonds and their inclusions were described: ①getting knowledge of mineralogical and petrologic characteristics of diamond source areas, characteristics of mantle fluids and mantle dynamics processes by studying the major element and trace element compositions of mineral inclusions; ②discussing deep carbon cycle by studying carbon isotopic composition of diamonds; ③determining forming temperature and pressure of diamonds by using appropriate assemblages of mineral inclusions or single mineral inclusion as geothermobarometry, by using the abundance and aggregation of nitrogen impurities in diamonds and by measuring the residual stress that an inclusion remains under within a diamond ; ④estimating the crystallization ages of diamonds by using the aggregation of nitrogen impurities in diamonds and by determine the radiometric ages of syngenetic mineral inclusions in diamonds. Genetic model of craton lithospheric diamonds and their mineral inclusion were also introduced. In the end, the research progress on diamonds and their inclusions in China and the gap between domestic and international research are discussed. 相似文献
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Superdeep diamonds and their inclusions are important samples to probe the physical and chemical environment and constitution of Earth’s deep mantle. By combining the studies of high-precision in-situ analysis and HPHT synthetic diamond experiments, and by reviewing the new discovery of classical mineral inclusions and their combinations, the ranges of different inclusion combinations, as well as the relationship between trace elements and temperature-pressure conditions were reoriented. The so-called nominally anhydrous minerals combinations, metal phases and redox environments in superdeep mantle were also affirmed. Meanwhile,the recent findings of inclusions and isotopes in superdeep diamonds support the fact that the remaining subduction ocean crust may be a significant reservoir of the deep mantle’s water and the deep mantle carbon cycle is closely related to oceanic subduction. Furthermore, although Chinese scholars have discovered some kinds of superdeep inclusions in diamonds from North China Craton and Yangtze Craton, and made considerable progress in the study of the formation of UHP diamonds and the genesis of ophiolite diamonds, there are still many scientific questions about superdeep diamonds that require further research. 相似文献
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最近NGTC实验室检测出多批次CVD合成钻石,这些CVD合成钻石均具有明显的鉴定特征,使用钻石观测仪(DiamondViewTM)观察可见蓝色、橙红色荧光和蓝色磷光以及细密层状生长纹理,光致发光光谱中可见737 nm处的特征发光线.这些特征均与其生长结构及生长过程中进入钻石晶体中的杂质有关.笔者以最近检测过程中发现的一颗CVD合成钻石为例,使用高倍率显微技术对其层状结构的微细特征及其在钻石观测仪下的荧光特征的关系进行了详细观察和对比.结果显示,此样品与之前检测到的CVD合成钻石略有差异.此次检测到的样品在钻石观测仪(DiamondViewTM)下观察具有较宽的层状生长分区,层与层之间的分界线十分明显且在高倍显微镜下也可见到细微的生长特征.通过对样品特征的分析,了解了晶体生长过程中多阶段生长条件的变化,更直观的展现了CVD合成钻石的生长过程. 相似文献