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Amics在矿物探索中自动化矿物学

通过将数十个样品表征到数百个样品或使用岩石学显微镜，很难通过将数十个样品表征到数百个样品来进行客观的矿物识别和定量。自动化的矿物学允许在微米，薄截面和手部样品尺度上重复收集矿物学信息，从而提供统计上强大的数据，其中包括矿物质鉴定和模态丰度，颗粒和矿物晶粒尺寸分布，矿物质纹理数据，等等。布鲁克的自动矿物学解决方案是Amics。该软件可以作为矿物探索的两种互补解决方案的一部分实施：

Automated Mineralogy for micro-XRF

M4龙卷风amic直接在M4龙卷风andM4龙卷风加to allow rapid automated mineralogical scanning of minimally prepared samples that may be integrated directly with major and trace element geochemical maps. With the M4 TORNADO series of instruments being robust enough to be deployed to field offices and exploration camps, and requiring no specialist sample preparation equipment, this solution allows real time data feedback to support exploration targeting. UseM4龙卷风amic支持：

Lithotyping and alteration mapping directly on drill core to enhance deposit models and validate interpretations made by visual or geochemical logging tools
精确鉴定和表征细粒的矿石和改变矿物
选择样品以获得更昂贵的特征技术，例如SEM-EDS映射或基于SEM的自动矿物学
预筛查样品用于前瞻性和生育工作流程（例如，轮辋），包括分析溪流沉积物，土壤或耕种，而无需详尽的样品准备。

扫描电子显微镜的自动矿物学

在低于micro-xrf解决的尺度下需要矿物关系的地方，AMICS for SEMprovides the solution for mineral and rock characterization. Use SEM AMICS:

To quantify abundances of fine-grained alteration and ore minerals to build accurate deposit models
As a fundamental part of your RIMS or alteration footprint programs for local and regional vectoring and targeting
矿物驱逐心的表征协助对目标矿体的不断发展的理解，以供应有关存款可行性，未来工厂设计甚至对废物和尾矿的环境管理的决定。

与基于微XRF的地球化学和矿物质表征无缝集成。

微XRF用于岩石表征

Micro-XRF用于矿物探索中的岩石表征

铜矿化的M4龙卷风元素图

现代探索人员提供了无数的工具来帮助定位，发现和表征新的矿床。勘探过程的基础是岩石的鲁棒表征 - 从露头中采集的手工样品，通过RC钻井方法生成的钻头或钻石钻头芯。虽然熟练的地质学家可以准确地识别手工样品中的矿物质，并创建可靠的日志，以指导地球化学和建造存款模型的采样，但新的和不断发展的技术正在为岩石表征提供快速且可重复的方法。

Micro-XRF扫描可在最小准备的样品上在手工特异性和薄截面刻度上快速可视化主要和痕量元素地球化学。布鲁克的M4龙卷风series of micro-XRF instruments are rugged, allowing deployment to field sites or offices, and do not require specialist lab personnel to operate or reduce data. Use theM4龙卷风orM4龙卷风加启用：

rapid scanning of rough cut drill core or trays of drill chips to produce major, minor and trace element geochemical maps
快速评估矿石和更改矿物学，并确认视觉日志并直接进行持续的日志记录策略
验证高光谱或者其他测井技术ata by providing direct geochemical data at comparable scales
use geochemical maps to calculate whole rock compositions for entire samples or subdomains within scans for lithotyping and calculation of alteration indices
build data sets rapidly to provide more accurate vectoring during drilling programs, and feed deposit models for regional exploration programs.

Micro-Characterization

在微米尺度上进行表征 - 由SEM -EDS映射

eds金属触及样品的元素图

在探索的不同阶段，出现了对可能超出现场或前瞻性实验室解决方案的样品的更详细研究。通常需要微米尺度的岩石和矿物质表征来了解复杂的旁源关系，从而阐明了矿物化过程和事件序列，这些过程和事件序列可用于建立更全面的存款模型以指导正在进行的探索。

岩石和矿物特征基于SEM的ED解决方案提供：

Detailed textural and timing relationships between important ore and gangue minerals
Compositional zoning in ore-related minerals to define ore deposition events
More focused compositional analysis of fine-grained alteration products, to validate other field geochemical techniques and providing confidence in exploration models