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Micro-spectroscopic investigations of highly heterogeneous waste repository materials 总被引:1,自引:0,他引:1
A.M. Scheidegger D. Grolimund C.R. Cheeseman R.D. Rogers 《Journal of Geochemical Exploration》2006,88(1-3):59
Assuring safe disposal and long-term storage of radioactive and toxic wastes corresponds to a primary environmental task of present societies. To improve any technical limitation, a mechanistic understanding of the processes governing the binding of heavy metals and radionuclides is required. In this study, the significance of synchrotron-based X-ray microprobes for elucidating the spatial distribution and the speciation of radionuclides in highly heterogeneous waste repository materials will be outlined. A case study on the uptake process of Co in cementitious engineered barrier materials exposed to microbial degradation will be presented. 相似文献
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微束分析技术能够在微米-纳米尺度上精确分析矿石矿物的物相、形貌、结构、成分以及同位素组成,为地球科学精细研究提供重要技术支撑。本文利用多种微束分析技术的自身优势,综合运用微区X射线荧光光谱(micro-XRF)、偏光显微镜、电子探针(EPMA)以及激光剥蚀电感耦合等离子体质谱(LA-ICP-MS)分析技术,建立了一种简单直观且全面快速鉴别钴赋存状态的技术方法。首先采用偏光显微镜选出部分代表性的探针片,然后进行微区X射线荧光光谱面扫描,获得探针片中钴及组合元素分布规律及特征,再利用偏光显微镜细致观察鉴别,结合元素分布特征规律识别出独立钴矿物以及含钴矿物,最后圈出代表性矿物并采用电子探针和LA-ICP-MS进行主微量化学成分测定。将该方法应用于中非铜钴成矿带上典型铜钴矿床中钴的赋存状态研究,查明了谦比希东南矿体中的钴主要以独立矿物(钴镍黄铁矿、硫钴矿、硫铜钴矿)和类质同象(主要赋存于黄铁矿、磁黄铁矿中)两种形式存在,而谦比希西矿体中的钴主要以独立矿物——硫铜钴矿的形式零星存在。 相似文献
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利用微区XRF技术的大洋固体矿产成分快速无损检测 总被引:1,自引:0,他引:1
深海固体矿产主要由铁锰结核、富钴结壳和多金属热液硫化物组成,元素在矿产中原位的分布和含量,对了解矿物成因、品位以及评估其经济价值有重要指示作用.本研究利用微区XRF分析技术对铁锰结核、富钴结壳、热液硫化物3种大洋类型矿产样品,进行高分辨、原位和无损的多元素空间分布检测,结果显示了不同元素在3种类型矿物中的空间分布特征.... 相似文献
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Neutron Activation Analysis, Atomic Absorption and X-Ray Fluorescence Spectrometry Review for 2003 总被引:1,自引:0,他引:1
This review for the year 2003 deals with three relatively well-established, mature, analytical techniques (neutron activation analysis, atomic absorption spectrometry and X-ray fluorescence spectrometry) that nevertheless remain very important for the characterisation of geological and environmental samples. Developments in neutron activation analysis included modification to the technique in relation to the determination of platinum-group elements, as well as consideration of sample size in ore grade estimation. A considerable body of literature was published on the application of atomic absorption spectrometry in the analysis of environmental samples. Many of these proposed technical and methodological improvements, notably in extraction procedures. X-ray fluorescence spectrometry saw developments in in situ analysis, synchrotron micro-XRF (μ-SRXRF) and a confocal X-ray set-up for 3D elemental imaging. XRF technologies were used in the analysis of geological samples, reference materials, glasses, solutes and environmental materials. 相似文献
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Itrax micro X-ray fluorescence (μ-XRF) core scanning is a non-destructive, rapid approach to measuring elemental concentrations and their variability in sediment cores. As such, it records elemental signatures of tephra layers, which serve as correlation tie points and chronological markers for these sedimentary archives of past climatic changes. The traditional tephra identification approach using electron microprobe-based geochemical fingerprinting of glass shards is a slow and invasive process, whilst μ-XRF scanning of rhyolite tephra in sediment cores from Auckland (New Zealand) could provide a faster, non-invasive approach to aid the recognition of tephra layers. This study highlights the potential and pitfalls in this novel approach: changes in most scanning parameters, and the use of two different Itrax core scanners, still led to similar chemical characterizations of the tephra layers. Changes in other scanning parameters have a biasing influence on the chemical characterization of the tephra, which would lead to misidentification of unknown layers. We demonstrate that μ-XRF core scanning provides a faster and non-invasive approach to correlation of sediment sequences using chemically distinct, visually pure tephra layers if a strict scanning protocol is followed. Nevertheless, an extensive database of μ-XRF-scanned rhyolite tephra is required for recognition of unknown tephra units using this approach. 相似文献
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