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surface quality are typically comparatively low, in particular when determining elements with high fluorescence energies due to their large information depths. The specific preparation techniques are again strongly dependent on the sample type and the analytical task. More detailed information on the preparation techniques for glasses can be found in the descriptions of the appropriate applications in Section 9.7.

      Shaped glasses or art objects are often irregularly shaped, which means that sufficiently large areas are not available for a conventional large area analysis. In the case of valuable objects, sample preparation usually is not possible in order to avoid any damage to the object. Here, spatially resolved methods are recommended.

      Powder-like materials can be of various nature – minerals such as ores, rocks, or sands, slags or metal swarfs, but also polymer granules or secondary raw materials.

      In the following, it is to be assumed that sample particles exist in a size of 2 mm, which means that they were prepared by breaking or cutting.

Table presenting the steps for processing and sampling of small part materials, carried out by filling the test particles into a sample cup or vessel or by pressing a tablet.

      

      3.4.1 Grinding of Small Parts Material

      The selection of an appropriate mill depends essentially on the type of material to be ground. Hard and brittle materials are most effectively crushed by friction or thrusting, and soft and fibrous materials rather by cutting. Cooling of soft and fibrous materials to low temperature, e.g. by liquid nitrogen (LN2), can temporarily convert these materials into a hard and brittle state. When selecting the grinding vessels for very hard samples to be ground one should look for a high-density material (for example tungsten-carbide). For medium-hard specimens good milling results can also be achieved with lighter material grinding tools (steel, agate).

Type of material Type of mills Functional principle
Milling materials Size of the starting material
Milling speed/revolution speed Final grain size
Soft to medium hard, brittle as well as fibrous material Rotating mill Comminution by cutting
Steel Up to 10–20 mm
200–3000 min−1 100–200 μm
Soft material, fibers, cloth, textile Cutting mill Comminution by cutting
Steel Up to 10–20 mm
2000–20 000 min−1 0.25–10 mm
Medium hard, hard, brittle or fibrous materials (dry or in suspension) Disk mills Comminution and homogenization by thrusting and milling between rotating disks
Steel, agate Up to 15 mm
400–1500 min−1 10–20 μm
Dry samples or solids in suspension Ball mill Comminution and homogenization by thrusting and milling by beating balls
Steel, agate, tungsten carbide Up to 5 mm
Frequency: 3–25 Hz 10 μm
Hard to soft materials (dry or in suspension) Planet mill Finest comminution and homogenization by thrusting and milling in rotating milling molds
Steel, agate, tungsten carbide Up to 5 mm
100–1000 min−1 1 μm
Medium hard to soft-brittle materials (dry or in suspension) Mortar grinder Finest comminution and homogenization by thrusting and milling between mortar and mold
Steel, agate, tungsten carbide Up to 8 mm
up to 80 min−1 1 μm
Chart depicting the duration of the grinding process determined from the measurement of the fluorescence intensity of an analyte as a function of the grinding time.

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