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Mesh material is often used in determining the particle size distribution of a granular material. For example, a sample from a truckload of peanuts may be placed atop a mesh with 5 mm openings. When the mesh is shaken, small broken pieces and dust pass through the mesh while whole peanuts are retained on the mesh. A commercial peanut buyer might use a test like this to determine if a batch of peanuts has too many broken pieces. This type of test is common in some industries, and to facilitate uniform testing methods, several standardized mesh series have been established.

Applicable standards are ISO 565 (1987), ISO 3310 (1999), ASTM E 11-70 (1995), DIN 4188 (1977), BS 410 (1986) and AFNOR NFX11-501 (1987).

One well-known mesh series is the Tyler Equivalent. Tyler mesh size indicates exactly the number of openings per linear inch of mesh. For instance, a Tyler number 4 mesh will have 4 openings per linear inch, and 16 openings per square inch. This numbering system results in higher numbered meshes having smaller openings.

To calculate the size of the openings in a mesh the thickness of the wires making up the mesh material must be taken into account. In practice, mesh openings are determined referring to a chart like the one below.

Powders and granular materials are sometimes described as having a certain mesh size (e.g. 30 mesh sand). By itself, this type of description is somewhat ambiguous. More precise specifications will indicate that a material will pass through some specific mesh (that is, have a maximum size; larger pieces won't fit through this mesh) but will be retained by some specific tighter mesh (that is, a minimum size; pieces smaller than this will have passed through the mesh). This type of description establishes a range of particle sizes.

The Federation of European Producers of Abrasives (FEPA) has four sets of standards to denote size of grains coupled with the type of abrasive. The standards indicate a range of grit sizes that may come within any single designator which consists of a letter (F for bonded abrasives and P for coated abrasives) and a number. Within each series are two standards detailing the larger macrogrit (approximately 12 – 240) and smaller microgrit (approximately 230 – 2000 or 2500) sizes and the different process by which sizes are determined (sieving for the larger grits and sedimentation for the smaller).

While following the common practice of smaller designators meaning coarser grits and similar cut-off marks between macro- and microgrit standards, the F and P series are not compatible. While F 12 and P 12 are only about 3% different in size, P 2000 is more than 750% larger than F 2000 (that is, the particles in F 2000 are about 8.5 times as large as those in P 2000).^{[1] [2]}