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Special Features |
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| Simultaneous
Measurement of Yarn and Roving/ Sliver |
| Improved
Capacitance arrangement for more accurate evenness measurement
The twin test arrangement results in enormous
saving on test and operator time.
Measures Unevenness, Imperfections, Cut lengths CV, Spectrograms,
Variance –Length Curve, Diagrams, etc.
The SPOT program analyses the source of deviation
and identifies the machinery components responsible. It has
a library of over 300 gearing plans of cotton, synthetic &
worsted machinery. |
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| Nep
Classification |
Classifies
Neps into Fibre Neps and Trash Neps
Employs an Optical light source with RGB detectors for the
detection
The
Fibre neps, which are detrimental to the fabric quality,
need more attention than the trash neps, which is predominantly
the seed coat type. The seed coat neps eventually falls
off during subsequent processes or dissolved in chemical
processing.
The
classification of neps helps choosing better raw material
and fine-tuning spinning process.
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| Automatic
Count Determination of Yarn, Roving/Sliver |
| Linear
Density (Actual Count) of the yarn, roving and sliver
is estimated along with the evenness testing |
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| Employs
a unique cutting, transporting, weighing and disposal
mechanism. |
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| Yarn,
Roving and Sliver to any desired sample length can be
chosen for count estimation. |
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| Avoids
associated problems with manual wrapping method, like
unintentional stretching of material by operators and
not so precise length of material cut for the measurement. |
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| Saves
significant amount of time and material and provides
accurate count values. |
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| Simultaneous
evaluation of Hairiness Index & Hair Count |
Employs
a LASER light source with two sets of detectors for the hairiness
index and hair count distribution measurement. |
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With
the hair count detectors number of hairs longer than 3mm from
the core yarn insteps of 1mm up to 12 mm is detected. |
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Hairiness
Index provides a overall hairiness behavior of a yarn whereas
the hair count distribution helps optimizing processes especially
compact spun yarn, singeing process, etc. |
| New
Hairiness Measurement Possibilities |
| Average
hair Length indicates the average value of all hairs
present in various length classes. |
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| Mean
Length & Upper Quartile Length derived from a Hair-Length
Distribution |
| Standard
Deviation of Hair Count indicating the distribution
of hairs in different length zones. |
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| Fabric
Simulation with PREMIER CYROS |
| Optically
evaluates the yarn and simulates the 3D appearance of
woven or knitted fabric structures |
| Unlike
other simulations derived from mass signals, the CYROS
is a more precise reproduction of the actual fabric, as
it is optically measured. |
| With
the simulations, it is possible to pick up the process
and product variations early and correct them. |
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