Understanding Mesh Sizes - ESPI Metals
Powder Particle Size
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Sieving or screening is a method of categorizing a powder&#;s particle size by running the powder through a specific sized screen.* A powder can be separated into two or more size fractions by stacking the screens, thereby determining the powder&#;s particle size distribution. Sieves and screens are usually used for larger particle sized materials, greater than 44 micron (325 Mesh).
Two scales are used to classify particle sizes; US Sieve Series and Tyler Mesh Size. A powder&#;s mesh size can at times be somewhat confusing. A -6 mesh powder contains particles that pass through a 6 mesh screen. A -6 mesh powder has particles that measure less than microns. A powder that is -325 mesh has particles that measure less than 44 micron. As you can see, the larger the mesh number the smaller the particle size of the powder.
16 Mesh
6 Mesh
3 Mesh
Let&#;s assume for the moment you were interested in tantalum powder and it had a description of:
Tantalum Powder, -325 Mesh, 3N8 Purity
You would know that this powder passed though a 325 mesh screen. You could be confident that the powder&#;s particle size was less than 44 micron. However, much of the powder could be considerably less than 44 micron and still qualify as a -325 mesh powder. It could be 1 micron and qualify as -325 mesh, it could even be sub-micron and meet the -325 mesh specification. The designation -325 mesh is simply saying the powder passed through a 325 mesh screen.
If you needed a powder that was closer to size you would need to specify two mesh sizes. For example: Tantalum Powder, -40+100 Mesh, 3N8 Purity
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This powder would have particles that were smaller than 40 mesh (420 micron) but larger than 100 Mesh (149 micron). The powder passed through the 40 mesh screen but was trapped in the 100 mesh screen. Larger particles were trapped above in the 40 mesh screen and smaller particles passed through the 100 mesh screen. As a result the larger particles were eliminated from the distribution by the 40 mesh screen and smaller particles were eliminated by the 100 mesh screen.
*ESPI Metals does not offer mesh sieves for sale.
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Mesh Size, Mesh to Micron Comparison chart
The term &#;Mesh&#; is used to describe the size of an abrasive particle. In some instances, such as with Aluminum Oxide Grit or Silicon Carbide Grit, a single number is used. This does not mean every particle in that product is exactly that size but rather than mesh size indicator is approximately the mean or average size of the range of particles in that grade. In other instances, such as with Walnut Shell Grit or Glass Beads, two numbers are used. This indicates that all of the particles in that grade of the product are within that range of mesh sizes.
Contained below is more detail about Mesh size, how that is related to the grit size, and what these terms mean as it relates to abrasive (and non-abrasive) products.
What is Mesh Size?
U.S. Mesh Size (or U.S. Sieve Size) is defined as the number of openings in one square inch of a screen. For example, a 36 mesh screen will have 36 openings while a 150 mesh screen will have 150 openings. Since the size of the screen (one square inch) is constant, the higher the mesh number the smaller the screen opening and the smaller the particle that will pass through. Generally, US Mesh is measured using screens down to 325 mesh (325 openings in one square inch).
Sometimes the mesh size of a product is noted with either a minus (-) or plus (+) sign. These signs indicate that the particles are either all smaller than (-) or all larger than (+) the mesh size. For example, a product identified as -100 mesh would contain only particles that passed through a 100 mesh screen. A +100 grade would contain particles that did not pass through a 100 mesh screen. When a grade of product is noted with a dash or a slash is indicates that the product has particle contained within the two mesh sizes. For example, a 30/70 or 30-70 grade would only have particles that are smaller than 30 mesh and larger than 70 mesh.
The terms Mesh and Grit are often confused. The terms can be used interchangeably when referring to abrasive grit. A 60 mesh Aluminum Oxide can also correctly be termed a 60 grit Aluminum Oxide. In practical terms, identifying a specific abrasive product with the term 60 Mesh would normally indicate that the product has a median size of the openings on a 60 mesh screen. The term 60 Grit more accurately identifies the particle size distribution of the product but the difference in terminology is insignificant for industry purposes. See our blog post Mesh vs. Grit for more detail.
Mesh to Micron Conversion Chart
The chart below shows the approximate size in inches and microns for various mesh sizes. These values are generally accepted as accurate but are approximates because the thickness of the wire used to make a specific screen will vary the number of openings in the one square inch. A micron is one-millionth of a meter or one-twenty-five thousandths of an inch. Most grades below 325 mesh are indicated by the micron size as these sizes are not manufactured using screens.
4
4,750 um
0.187
5
4,000 um
0.157
6
3,350 um
0.132
7
2,800 um
0.111
8
2,360 um
0.
10
2,000 um
0.
12
1,700 um
0.
14
1,400 um
0.
16
1,200 um
0.
18
1,000 um
0.
20
850 um
0.
24
690 um
0.027
30
560 um
0.022
36
485 um
0.019
40
425 um
0.016
46
355 um
0.014
54
305 um
0.012
60
250 um
0.01
70
210 um
0.
80
165 um
0.
90
145 um
0.
100
149 um
0.
120
125 um
0.
140
105 um
0.
150
89 um
0.
170
88 um
0.
180
76 um
0.003
200
75 um
0.
220
63 um
0.
240
53 um
0.002
280
44 um
0.
320
36 um
0.
400
23 um
0.
500
19 um
0.
600
16 um
0.
800
12 um
0.
1,000
9 um
0.
1,200
6 um
0.
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