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3、Twilled Weave wire mesh is produced by passing each fill wire alternately over and under two warp wires. The pattern is staggered on successive warp wires, giving the appearance of parallel diagonal lines. This weave allows the use of proportionately heavier wires in a particular mesh count (number of openings per lineal inch) than is possible in plain weave. This cloth has a wide application capable of supporting greater loads and finer filtrations.
Mesh per Inch |
Wire Diameter (mm) |
180mesh x 180mesh |
0.06 |
200mesh x 200mesh |
0.05 |
230mesh x 230mesh |
0.035 |
250mesh x 250mesh |
0.04 |
270mesh x 270mesh |
0.04 |
300mesh x 300mesh |
0.035 |
325mesh x 325mesh |
0.035 |
400mesh x 400mesh |
0.03 |
450mesh x 450mesh |
0.03 |
500mesh x 500mesh |
0.025 |
4、Twilled Dutch Weave wire mesh” Twill” indicates the warp and weft wires pass alternately above two and below two wires.”Dutch” refers to the usd of a heavier warp wire diameter in conjunction with a lighter weft wire diameter,This weave shows a combination of twill and dutch weave.
It is produced by a combination of the features of the Dutch Weave and the Twilled Weave. Fill wires are passed alternately over and under two warp wires forming a fine mesh in one direction and a coarse mesh (mesh wire, woven wire mesh, wire mesh basket) in the other. This type of weave is capable of supporting greater loads than the Dutch Weave, with finer openings than the Twilled Weave. It is used in applications where the filtering of heavy material is necessary
Mesh per Inch (Warp x Weft) |
Wire Diameter (Warp x Weft) |
24mesh X 220mesh |
0.30mm X 0.25mm |
20mesh X 250mesh |
0.30mm X 0.20mm |
50mesh X 500mesh |
0.14mm X 0.11mm |
80mesh X 700mesh |
0.10mm X 0.08mm |
165mesh X 800mesh |
0.071mm X 0.045mm |
200mesh X 600mesh |
0.071mm X 0.050mm |
200mesh X 1400mesh |
0.071mm X 0.04mm |
165mesh X 1400mesh |
0.071mm X 0.04mm |
325mesh X 2300mesh |
0.035mm X 0.025mm |
400mesh X 2800mesh |
0.030mm X 0.02mm |
5、 Reverse Dutch Weave is produced by the use of coarse mesh (mesh wire, woven wire mesh) in the warp and a fine mesh with relatively smaller wire in the fill. This weave results in greater strength with very fine openings and is primarily used as a filter cloth. The shape and position of the openings aid particle retention and increase filter cake formation
Mesh per Inch (25.4mm)
Warp x Weft |
Wire Diameter (mm)
Warp x Weft |
Density of Warp Number/dm |
Fineness of Filtering
(micron) |
Weight
(kg/m2) |
48 X 10 |
0.5 X 0.5 |
189 |
300 |
3.63 |
290 X 76 |
0.09 X 0.19 |
1142 |
40 |
1.27 |
400 X 120 |
0.058 X 0.1 |
1575 |
30 |
0.64 |
625 X 104 |
0.04 X 0.15 |
2461 |
28 |
0.84 |
6、 Five Heddle Weave is produced by passing each fill wire alternately over and under five warp wires. The pattern is staggered on successive warp wires, giving the appearance of parallel diagonal lines. This weave allows the use of proportionately heavier wires in a particular mesh count (number of openings per lineal inch) than is possible in other weave. This cloth has a wide application capable of supporting greater loads.
Meshes per inch (25.4mm)
Warp x Weft |
Wire Diameter (mm) |
Aperture (mm)
Warp x Weft |
Open Area % |
Weight (kg/m2) |
108 X 59 |
0.160 |
0.075 X 0.271 |
20 |
1.07 |
110 X 60 |
0.160 |
0.071 X 0.263 |
19 |
1.09 |
38 X 38 |
0.150 |
0.518 X 0.518 |
60 |
0.43 |
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