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3.16.

      To take advantage of a higher accuracy, any contamination by touching of the measurement surface of the sample must be avoided. Otherwise, traces of Na, K, Cl, and others will be transferred to the sample, contaminate it, and consequently influence the analytical result. The same care has to be used for pressed pellets.

      3.4.4.5 Preparation of Special Materials

      The previously described procedures can be used for several material classes. However, for several materials special conditions must be fulfilled to produce fusion beads of high quality (Sear 1997). We will mention a few of them here:

       Carbonates: In the case of melting carbonates, the gas produced from the decomposition of the carbonate can have difficulties escaping from the melt because the flux has a lower melting temperature than the carbonate. This means that the gas is blocked by the viscous liquid and consequently produces foam that can completely fill the crucible. Calcium carbonate has a melting point of 900 °C. In this case, tetraborate has to be used since it has a higher melting point. If the flux is a coarse powder the gas can escape through the porous flux (Giles et al. 1995).

       Carbon: Pure carbon can be present in small amounts in the various sample qualities. It has to be removed before the fusion process. This is achieved by adding small amounts of ammonium nitrate. This will oxidize the carbon. The unused ammonium nitrate evaporates during the melting process. Its melting temperature is only 170 °C.

       Metallic compounds: The metallic particles should be milled to a very fine grain size. They then can be mixed with an oxidizer. Lithium carbonate has been proved to be very efficient. For the fusion procedure 5 g of tetraborate should be melted while the mold is rotated to coat the surface of the mold. Then the melt should be cooled down during rotation until the surface has solidified. Now 0.5 g of the metallic powder together with 1.25 g of LiCO3 can be added on the top of a layer of 1.8 g boron oxide (B2O3). For oxidation and melting of the boron oxide it should be heated to an intermediate temperature, which prevents an outgassing of CO2. After the complete oxidation of the material a standard fusion procedure can follow.

       Sulfide minerals: Sulfides are difficult because they can corrode and destroy the mold. This can be overcome by complete oxidation of the sample material to sulfate. The loss of sulfur due to evaporation is problematic, and therefore oxidants have to be used. Depending on the analyte elements potassium pyrosulfate or nitrates of lithium or sodium can be used.Ammonium iodide cannot be used for the improvement of the casting because sulfur evaporates with ammonium.Norrish and Thompson (1990) describe a procedure for the analysis of sulfides. They used 0.26–0.66 g of the sample, mixed that with 6.8 g of a 12 : 22 mixture of tetraborate to metaborate and 1.0 g of sodium nitrate, which was heated to 700 °C in a muffle furnace for 10 minutes with subsequent fusion at 1050 °C.

      Liquid samples can be prepared in several ways. For instance, direct measurement of liquids is possible. Liquids can also be prepared by drying through evaporation of the solvents, by absorption, e.g. in cellulose or wax, by precipitation through a chemical reaction, or by filtration.

      

      3.5.1 Direct Measurement of Liquids

      For the direct measurement, the liquids are filled into special sample cups (see Figure 3.17). The sample cups are available in several styles, each one designed to fit the different types of instruments; they can have different sizes and can be used with or without a cover. They are made of polymers (PE, Teflon), which inherently are very clean, in order to avoid introducing any foreign measurement signal.

Image of sample cups is several styles used for the direct measurement of liquids, designed to fit the different types of instruments.

      Source: Courtesy of Chemplex Industries, Inc.

      This high excitation intensity of WDS instruments can also alter the sample, for example, by decomposition, which can then lead to generating bubbles in the liquid.

      The samples should always be filled into the sample cups just before the measurement. For particularly aggressive solvents, it is also advisable to use a double film for covering the cup.

      In the case of a defective foil, there is a high risk that the liquid enters the spectrometer, which then can lead to considerable damage, both by potential temperature shock to the X-ray tube and by contamination or reaction of the solvent with the spectrometer components.

Material Elements Minimal thickness (μm) Properties
Mylar (PET) Hydrogen, carbon, oxygen 2.5
Polypropylene (PE) Hydrogen, carbon 4 Small absorption due to light elementsSuitable: all organic solventsNot suitable: aromatic and halogenated hydrocarbons,

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