The quality of an ore extracted from the ground is never constant. This makes frequent monitoring of raw and sometimes partially processed material a critical part of all mining projects.
X-Ray Fluorescence (XRF) is the most accepted analytic technology for grade control in mineral production and processing. Bruker’s wide range of XRF instrumentation can meet any need in production monitoring for mining in the goal of separating waste form ore. XRF works by measuring the secondary x-ray fluorescence generated by elements when they are excited by a primary x-ray source. The XRF analyzer can measure the elemental concentration in rocks. The elemental concentration can be used to identify grade, sub-grade and waste and prevent the dilution of ore by waste rock. The advantages of XRF include:
XRF is fast, analyzing all elements from a single spectrum
Analyze a wide range of elements from carbon to americium
Measure concentration of elements from trace (ppm) to 100%
Simple and fast sample preparation
Easy process automation and incorporation of robotic sample changes
The possibility of non-destructive elemental analysis of core
Wavelength dispersive X-ray fluorescence spectrometers (WDXRF) are known for their unrivalled accuracy, precision and reliability. WDXRF spectrometers have met the needs of many industrial applications, where robust instrumentation and high precision are the keys to success.
TheS8 TIGER Series 2顺序WDXRF提供杰出的优越的安娜lytical performance for the most demanding mineral and mining applications. This analytical performance results from the innovative optimized X-ray optics. The S8 TIGER combines extreme ease-of-use and robust reliability with superior analytical performance.
The newS8 LIONWDXRF spectrometer provides the fastest time-to-result for process and quality control in the cement, minerals and mining industries.
Based on multichannel technology, theS8 LION提供非常精确和准确的结果,within the shortest measurement time, for up to 16 elements. Several languages are available for its interface: English, Spanish, Chinese, Russian and Portuguese.
Elemental analysis with energy-dispersive X-ray fluorescence (EDXRF) spectrometry has become an indispensable tool for research and industry. Reliable results, analytical flexibility, robust all-in-one design and low cost-of-operation make the uniqueS2 PUMA Series 2benchtop EDXRF the ideal solution for process and quality control applications; for example, cement, minerals and mining, and metals.
For dedicated analytical tasks, monitoring and field work in geology and exploration, theS2 PUMA Series 2, equipped with the intuitive TouchControlTM interface, is the right choice to serve all needs for mobility, flexibility and ease-of-use in combination with best performance.
Portable and handheld XRF允许地球化学分析密切的投影r to operations and into the field. Portable X-ray fluorescence (pXRF) spectrometers offer immediate elemental analysis in support of geochemical mapping, core scanning and routine geochemical operations like grade control. Bruker’s experts can help design a measurement program that:
Provides mission-critical geochemical data quickly from any point in the mine lifecycle or commodity value chain
Has appropriate sample preparation including pulping
Utilizes a matrix-matched calibration
Includes a robust QA/QC protocol including sample duplicates, blanks and reference standards
Incorporates verification of at least 10% of results by complementary methods like WDXRF
Updates the calibration based on verification results and recalculates data to become more accurate with time
Total reflection XRF (TXRF) is an emerging method for aqueous geochemistry, powders or digested rocks in mining. Detection limits down to ppb range can be achieved on small samples with no dilution, no consumable gas and simple sample preparation. TXRF is an ideal method for testing effluent, runoff, pit water, soil and other wastewater for heavy metals like cadmium (Cd), mercury (Hg) and selenium (Se). For example, mercury can be analysed in water with good precision when concentration levels are above about 30 µg/l. Bruker offers two models of TXRF:
S2 PICOFOXis a single excitation source 25 sample TXRF is just as at-home on-site as it is in the lab. Measure form aluminum (Al) to uranium (U)
S4 T-STARis a duel excitation source, high-throughput 90 sample TXRF for measurements from sodium (Na) to uranium (U), the ultimate tool for full coverage of the periodic table
The detailed characterization of core, hand sample, RC drill chips, or sediment samples is fundamental to both greenfield and brownfield exploration. Micro-XRF is a new tool for this characterization, empowering highly accurate large-area geochemical mapping of samples without the need for intensive sample preparation. Bruker’s micro-XRF series provides:
Visualization of the spatial distribution of geochemistry with relative abundance and quantified elemental maps from Na to U in theM4 TORNADOand C to Am in theM4 TORNADOPLUS
Rapid quick-look screening for indicator minerals, calculations of indices at the grain scale
Targeted single-spot or line-scan bulk-rock quantification with spot size to 18 µm polycarpellary high-brilliance spot, or with optional 0.5 mm, 1 mm, 2 mm and 4.5 mm columnated x-ray source
Calculate bulk-rock geochemistry from maps including user-selected polygons
Ability to add micro-XRF capabilities to a scanning electron microscope with theQUANTAX Micro-XRFand mineral mapping withM4 TORNADO AMICS
Product |
Type |
Samples |
Mapping |
Elemental Range |
---|---|---|---|---|
Sequential WDXRF |
Up to 75 position XY-autochanger |
300 µm or 1.25 mm spot |
Carbon to americium (C – Am) |
|
Simultaneous WDXRF |
Up to 12 position XY-autochanger |
300 µm or 1.25 mm spot |
Carbon to americium (C – Am) |
|
Benchtop sequential WDXRF |
Up to 24 position XY-autochanger |
N/A |
Carbon to americium (C – Am) |
|
Benchtop EDXRF |
Up to 20 position XY Autochanger or 18 position carousel |
N/A |
Carbon to americium (C – Am) |
|
Micro-XRF for SEM with 100 µm spot |
Varies by SEM |
50 mm travel distance RapidStage™ |
Carbon to americium (C – Am) |
|
Benchtop Micro-XRF, ~18 µm spot polycarpellary; optional 0.5, 1, 2, 4.5 mm columnated |
Large chamber with X-Y mapping stage, optional core holder and thin section holder |
Rapid elemental mapping with a mapping area of 190 mm X 160 mm |
Sodium to Uranium (Na – U |
|
Benchtop Micro-XRF, ~18 µm spot polycarpellary; optional 0.5, 1, 2, 4.5 mm columnated |
Mapping area of 190 mm X 160 mm, , optional core holder and thin section holder |
Rapid elemental mapping with a mapping area of 190 mm X 160 mm |
Carbon to americium (C – Am) |
|
Handheld EDXRF, open beam, 8 mm spot size, 5 mm optional |
1 sample |
N/A |
Magnesium to Uranium (Mg – U) |
|
Handheld EDXRF, open beam, 8 mm spot size |
1 sample |
N/A |
Iron to Uranium (Fe – U) |
|
Portable EDXRF, safety interlocked, 8 mm spot size, 5 mm optional |
1 sample |
N/A |
Magnesium to Uranium (Mg – U) |
|
Handheld XRF, open beam, 8 mm spot size |
1 sample |
N/A |
Fluorine to Uranium (F-U) |
|
Portable Benchtop TXRF |
Up to 25 samples |
N/A |
Aluminum to Uranium (Al – U) |
|
Benchtop TXRF |
Up to 90 samples |
N/A |
Sodium to Uranium (Na – U) |