Minerals: Exploration and Discovery

Rock Characterization for Mineral Exploration

Explorationists need tools for rapid and repeatable rock characterization to aid in targeting, detection and characterization of ore deposits. Explore Bruker’s tools for robust characterization of rocks including hand samples taken from outcrops, RC drill chips, or diamond drill core.

AMICS Automated Mineralogy in Mineral Exploration

Objective mineral identification and quantification through characterization of tens to hundreds of samples is difficult with the hand lens or using a petrographic microscope. Automated mineralogy allows the repeatable collection of mineralogical information at the micron, thin section and hand sample scales, providing statistically robust data that includes mineral identification and modal abundance, particle and mineral grain size distributions, mineral texture data, and more. Bruker's automated mineralogy solution is AMICS. This software may be implemented as part of two complementary solutions of direct use in mineral exploration: 

Automated Mineralogy for micro-XRF

M4 TORNADO AMICS implements Bruker's AMICS software directly on the M4 TORNADO and M4 TORNADO PLUS 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.  Use M4 TORNADO AMICS to support:

  • Lithotyping and alteration mapping directly on drill core to enhance deposit models and validate interpretations made by visual or geochemical logging tools
  • Accurate identification and characterization of fine-grained ore and alteration minerals
  • Selection of samples for more expensive characterization techniques such as SEM-EDS mapping or SEM-based automated mineralogy
  • Pre-screening of samples for use in prospectivity and fertility workflows (e.g., RIMS), including analysis of stream sediment, soil or till samples without the need for exhaustive sample preparation.

Automated Mineralogy for Scanning Electron Microscope

Where mineral relationships are needed at scales below that resolved by micro-XRF, AMICS for SEM provides 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
  • Characterization of mineral deportment aiding an evolving understanding of the target orebody to feed decisions on deposit feasibility, future mill design, and even environmental management of waste and tailings.

Integrate seamlessly with micro-XRF based geochemical and mineral characterization.

Micro-XRF for Rock Characterization in Mineral Exploration

M4 TORNADO elemental map of copper mineralization

Modern explorationists are presented with a myriad of tools to aid targeting, detection and characterization of new ore deposits. Fundamental to the exploration process is robust characterization of rocks – hand samples taken from outcrops, drill chips generated through RC drilling methods, or diamond drill core. While skillful geologists may accurately identify minerals in hand sample and create robust logs that guide sampling for geochemistry and construction of deposit models, new and evolving technologies are providing rapid and repeatable methods for rock characterization.

Micro-XRF scanning provides rapid visualization of major and trace element geochemistry at the hand-specimen and thin section scale, on minimally prepared samples. Bruker's M4 TORNADO 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 the M4 TORNADO or M4 TORNADO PLUS to enable:

  • rapid scanning of rough cut drill core or trays of drill chips to produce major, minor and trace element geochemical maps

  • quickly evaluate ore and alteration mineralogy and confirm visual logs and direct ongoing logging strategies

  • verify hyperspectral or other logging technology data 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.

Characterization at the Micron Scale - Mapping by SEM-EDS

EDS elemental map of a metal reach sample

During different stages of exploration needs arise for more detailed investigations of samples that may be beyond field or forward-deployed lab solutions. Micron-scale rock and mineral characterization is commonly needed to understand complex paragenetic relationships, shedding light on the mineralizing processes and event sequences that can be used to build more comprehensive deposit models to guide ongoing exploration. 

Rock and mineral characterization driven by SEM-based EDS solutions provide: 

  • 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 

Raman and FT-IR Raman and FT-IR Spectroscopy in Mineral Exploration

Adding to the arsenal of characterization techniques available in the mineral explorationist's toolkit, FTIR and Raman spectroscopy build on elemental scanning techniques to provide addition mineral chemical and structural information. Infrared and Raman spectroscopy allow accurate identification of minerals where elemental signatures are similar but their crystal structures are not. Applications include: 

  • distinguishing specific species of alteration products such as clay, oxide or sulfate minerals, which are important for understanding alteration facies and locations in hypergene, supergene or oxide zones.  

  • Presence of organic materials that can be important exploration indicators in some deposit environments 

In-Situ Study of Lazulite from Graves Mountain, Georgia, USA

The traditional bulk mineralogy approach is to reduce the sample to a homogenous powder and analyze with a divergent beam (Bragg-Brentano) geometry. Grinding is not always a practical option, due to rarity of a given specimen or the desire to characterize the spatial relationship of multiple phases within an assemblage. Microanalysis techniques offer the ability to analyze the sample in its native state, easing analysis of the individual constituents.

Webinars on Rock Characterization for Mineral Exploration

Mineral distribution and texture

Geochemical visualization in the geologist's toolkit

Rapid and reliable decision making in mineral exploration requires robust characterization of mineral and lithogeochemical trends.
Multiscale in-situ non-destructive micro-XRF scanning analysis

Multiscale in-situ non-destructive micro-XRF scanning analysis

The micro-analysis of geological samples is common practice to obtain valuable information, for example in mineral exploration and process mineralogy.
Micro-XRF spectrometry

Seeing the world through other eyes

Scanning micro-XRF has developed into a highly informative analytical tool for the study of complex samples across multiple disciplines.
Tips and Tricks for Making Your Own Secondary Standards for XRF
July 28, 2020

Tips and Tricks for Making Your Own Secondary Standards for XRF

Bruker and FLUXANA join forces.

Advanced Data Mining in Micro-XRF

In this webinar we will focus on 3 examples on how to get data out of a Hypermap data cube using different software features.
Analytical SEM Solutions for Geology - Part I

Analytical SEM Solutions for Geology - Part I

Join us for a webinar in two parts covering various aspects of scanning electron microscopy techniques (EDS, EBSD, CL) for geological applications.
The techniques are surface sensitive

Analytical SEM Solutions for Geology - Part II

Join the second part of this free webinar dealing with scanning electron microscopy techniques (EBSD, CL) for geological applications.
Bruker's M4 TORNADO is a tabletop Micro-XRF spectrometer.

Explore Micro-XRF in the Geosciences

Explore the exciting world of micro-XRF for Geology and get questions on the method answered by leading Micro-XRF experts.

Latest advances in identifying mineral composition variation by the M4 TORNADO AMICS

The new M4 TORNADOAMICS spectrometer allows the creation of mineral maps from spatially resolved X-ray Fluorescence (XRF) signals.

Advanced Element Analysis of Geological Samples using QUANTAX WDS for SEM

Advantages of WDS for SEM for the analyses of geological samples.

Large Area High Resolution Maps of Geological Samples

In this webinar we present Hypermap analyses of geological samples relevant to various applications, e.g. economic geology, mineralogy etc.
Infrared and Raman Analysis of Geological Samples
November 9, 2018

Infrared and Raman Analysis of Geological Samples

Should I Lick my Crystal?
June 22, 2017

Should I Lick my Crystal?

Mineral identification in 5 minutes.

Products for Rock Characterization for Mineral Exploration