Nylon Filter Mesh

Products for Filtration, Separation, Sifting & Printing

General Details

Introduction:

Nylon Filter Mesh is made of monofilament PA6 or PA66 yarn/thread (1:1 weaving method, plain weave), which is ideal for straining, sieving or filtering most liquids, powders or sludges; The term ‘Monofilament’ means that each thread used in the construction of the cloth is a single smooth solid strand instead of many smaller diameter threads twisted together, as in a spun or multifilament material. These monofilament threads are perfectly round in section and are extruded to very precise and uniform diameters.

Their advantages are:
a) due to their uniformity they can be woven with great precision to give exact and regular apertures.
b) the resulting material has a very smooth surface so that the filtered particles will easily separate from it.
c) they have great strength and elasticity.

After weaving, our fabrics undergo a finishing process to add the properties required for specific applications. During the finishing process, the fabric is scoured to remove any foreign substances and the yarns are then stabilised within the weave in order to eliminate shrinkage by a process known as ‘heat setting’.

Monofilament Nylon 6 or Nylon 6.6 Filter Mesh
Monofilament Nylon is a versatile material due to its great strength, flexibility, long life and resistance to abrasion. Nylon has excellent resistance to most common solvents and will operate continuously at temperatures up to 100°C in the chemical pH range 7-14.

Application:
1. Collection of Cells and Algae
2. Particle Analysis
3. Large Particulate Filtration
4. Background Filter for automated particle imaging system
5. Pre-filtration of Solvents
6. Paint Monitoring
7. Medical Filtration (Blood Filtration)

Fabricated Mesh Filter Parts SHARE can supply and offer

  1. Hot or Cold Cut Mesh Parts (in different shapes)
  2. Heat-sealed Mesh Filter Bags
  3.  Welded Filter Tubes
  4.  Stamping Mesh Filter Elements

Anatomy of Woven Mesh

1. Mesh: Designates the number of openings per inch (25.4mm)
2. Designates the measurement of the clear open space between parallel adjacent wires.
Opening Size=25.4 mm÷Mesh Count−Wire Diameter
Pitch=Opening Size+Wire Diameter; or 25.4mm÷Mesh Count
Open Area %=(Opening Size)2÷(Opening Size+Wire Diameter)2×100
3. Designates the diameter of wire before weaving. With a same mesh count, when the wire diameter is different, the opening size and open area are significantly changed.

Production Procedure:

Chemical Resistance of Major Fibers

Product Datasheet

Datasheet
Fabric Number Mesh  count Thread Diameter Mesh  Opening Open  Area Fabric Thickness Weight
No. cm mesh/inch micron micron % micron g/m2
JPP5 5 12 500 1500 56 850 271
JPP6 6 16 400 1267 58 780 208
JPP7 7 18 350 1079 57 675 186
JPP8 8 20 350 900 52 685 212
JPP9 9 24 250 860 60 455 145
JPP10 10 25 300 700 49 576 195
JPP12 12 30 250 583 49 470 162
JPP12 12 35 300 533 41 585 234
JPP14 14 40 300 414 34 595 273
JPP16 16 40 200 425 46 370 139
JPP16 16 50 250 375 36 485 217
JPP20 20 50 150 350 49 375 98
JPP20 20 50 200 300 36 385 173
JPP24 24 60 150 267 41 285 117
JPP28 28 70 120 237 44 215 87
JPP30 30 76 120 213 41 225 94
JPP32 32 80 100 213 46 165 69
JPP36 36 90 100 178 41 178 78
JPP40 40 100 100 150 36 190 87
JPP43 43 110 80 152 43 135 60
JPP48 48 120 80 130 38 145 62
JPP56 56 140 60 120 44 85 44
JPP59 59 150 60 110 42 98 46
JPP64 64 160 60 100 37 105 50
JPP72 72 180 50 90 41 82 39
JPP80 80 200 50 75 36 90 43
JPP100 100 250 40 60 36 65 35
JPP120 120 305 40 43 25 70 29
JPP130 130 330 40 37 23 75 31
JPP140 140 355 30 38 33.7 60 33
JPP150 150 381 30 34 30.25 52 26
JPP165 165 420 30 28 20.7 51 29
JPP180 180 460 30 25 19.5 58 31
JPP200 200 510 30 16 10.2 58 35
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