Fabric Shall be formed by spacing the main and cross
wires at a right angle. When all the main and cross
wires are parallel and equally intervals, the mesh forms
a square, and, when the width is different, it becomes
rectangular. Meanwhile, production of plain weave up
to the same wire gauge as open mesh is theoretically
possible. but use of wire gauge about 80% of open mesh
is optimum due` to changes in structure at the time
of weaving.
Twilled
Weave
Contrary to plain weave, two lines of the main and
cross wires are interweaved alternately. It is possible
to use a wire thicker then the mesh of twilled weave
and, it has an advantage of vulcanization being small
because the angle of refraction of the main and cross
wires is big. It is suitable for cases of comparatively
high or much load.
Plain
Dutch Weave
As a derivation of plain weave, the mesh of main
wires is broad, and the cross wires are stricked together
closely, letting liquids or air pass through theintersections
of the main and cross wires. This net is best suited
for filtering dehydrtion, and separation of centrifugal
separatores. Mesh is indicated by the number of weft
wires between a distance of 25.4mm.
Twilled
Dutch Weave
The process of manufacture of twilled dutch weave
is a combination of twilled weave and dutch weave. The
cross wires are sticked fast to both the interior and
exterior of the net. This has a density twice that of
dutch weave, being the most minute and firm filtrator
for separation. It is possible by the number of weft
wires between a distance of 25.4mm.
Plain
Weave
