Monday, 28 February 2011

The X-ray Fluorescence (XRF)


XRF Picture


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The X-ray Fluorescence (XRF) spectrometer is located in the Grant Institute of Earth Science at the University of Edinburgh. The facility primarily supports research programmes within the School of Geo Sciences but also provides an analytical service to the wider earth and environmental science community.
The instrument may be used for qualitative or quantitative analysis of geological materials. A quantitative whole-rock analysis may be obtained for most elements heavier than oxygen, with abundances in the range 1 ppm to 100 wt.%, depending on instrument sensitivity at the wavelength of the analytical line and availability of calibration standards.
The facility consists of an instrument laboratory and dedicated sample preparation laboratories, supported by sawing, crushing, and grinding facilities. 

Instrument Specification

·        Instrument: Panalytical PW2404 wavelength-dispersive sequential X-ray spectrometer.
·        Automated Sample changer: Panalytical PW2540 VRC 168-position X-Y sample changer.
·        X-ray Tube: 3kW Rh-anode, end-window tube.
·        Analysing Crystals: LiF 200, LiF 220, Ge 111-C, InSb 111-C, PE 002-C, PX1, PX6, TlAp 100 coated.
·        Detectors: Flow, Scintillation, Duplex, Xe-sealed.
·        Collimators: 700µm, 300µm, 150µm.
·        Collimator masks: 6mm, 27mm, 37mm.
·        Tube Filters: Brass 100µm, Brass 300µm, Pb 1000µm, Al 750µm.

Sample Requirements

Powders used for XRF analysis must be very finely ground using either tungsten carbide or agate grinding apparatus. Powders that feel gritty are generally unsuitable for analysis, and such powders must be reground before being submitted for analysis. Normally at least 10g of powder should be available for major- and trace-element analysis.
Major-element concentrations are measured on 40mm-diameter fused glass discs. About 0.9g of sample powder is mixed with a borate flux using a 5:1 (flux:sample) dilution and fused in Pt-5%Au crucibles at 1100°C.
      Please note the following important points:A 40mm-diameter glass disc cannot be made using less than 0.8g of powder.
Samples containing sulphides or more than 100ppm of As, Sb, Pb or Sn must not be fused in Pt crucibles.
Samples containing free carbon or organic material must be pre-ignited at 400°C in porcelain crucibles prior to fusion.
         Trace-element concentrations are measured on pressed powder pellets. About 8g of powder is required to make a 40mm-diameter pellet but it is also possible to make 30mm-diameter pellets (using 4g of powder) and 13mm-diameter pellets (using 1g of powder) for some analytical applications. Gritty powders do not make stable pellets and the pellets will produce poor analyses.
       Note: Pellets backed with pressed boric acid powder are not suitable for analysis in the current instrument.

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