+ -

Wednesday, May 16, 2012

Yarn Tensioners in Weaving | Types of Tensioning Device | Important Effects of Tensioning Device | Factors Influencing the Selection of Tensioners



Types of tensioning device 


There are basically three types of method by which tension is applied to yarn. They are as follows



  • Capstan method 

  • Additive method 

  • Combined method



Capstan Method

This is the simplest form of yarn tensioning device where the yarn is passed around posts where the tension on the yarn is provided from the friction between the posts and yarns.


This follows the classic law of


Output tension = Input tension x eµθ





Additive method

In this method the yarn is passed through the middle of two surfaces in contact. The force is applied from above to give suitable tension to the yarn.





Combined method

The combined system is a combination of capstan and additive method. This device is a complicated system which on allows the addition of tension. We cannot decrease the tension with this device. It is seldom used.


Important effects of tensioning device 


If the tension is too high then



  • The yarn can be damaged 

  • The rate of yarn breakage will be high 

  • The elongation property of yarn will change



If the tension is too low then



  • It can lead to unstable or loose package formation which will cause problems during unwinding




Variation in yarn in different parts of a wound package will cause undesirable effects

For man made filament yarn improper tension will cause



  • Change in molecular structure 

  • Variation in colour shades



For staple or spun yarn too high tension will cause



  • Yarn breakage at thin places



Factors influencing the selection of Tensioners 



  • The device must be reliable to control uniform tension 

  • The device must be easily thread able 

  • It must not introduce or magnify tension variation 

  • It must not introduce variation in twist 

  • It must not be affected by wear 

  • It must be easily adjustable 

  • It must not be affected by oil and dirt 

  • It must not encourage dirt collection 

  • It must be easily cleanable 

  • The operating surface must be smooth 

  • It must be cheap


Label :
5 Textile Technology: Yarn Tensioners in Weaving | Types of Tensioning Device | Important Effects of Tensioning Device | Factors Influencing the Selection of Tensioners Types of tensioning device  There are basically three types of method by which tension is applied to yarn. They are as follows Capstan metho...
Tags:

No Comments

***www.TextileTune.blogspot.Com***

< >
Subscribe to: Post Comments (Atom)
Accessories (10) acrylic (1) After treatment (2) Apparel Manufacturing (1) azoic dye (1) basic dye (2) beating (1) blend dyeing (2) Blowroom (5) calculation (2) Cam (1) Campus news (5) carbon fiber (1) Carding (6) Class Lecture (1) color (5) Combing (2) cotton (3) count (3) crimp (1) defects (6) Denim Process (2) Dictionary (26) direct dye (2) disperse dye (11) dye (1) dyeing (15) dyeing auxiliaries (8) dyeing m/c (9) Ebooks (6) Experiment (3) Fabric (4) Fabric Manufacturing (12) Fabric structure (11) Factory (9) fastness (7) Fastness test (7) finishing m/c (4) FlowChart (3) foam dyeing (1) FSD (12) garment dyeing (2) Garments (3) Garments m/c (10) glass fiber (2) hemp (1) inspection (3) Interlinning (1) Interview Q (6) jute (9) jute spinning (13) knit dyeing (1) knitting m/c (21) lecture sheet (1) loom (9) Man made fiber (1) Marchandising (5) milk fiber (1) Modern Textiles (1) mordant dye (1) naphthol dye (1) Needle (2) Others (1) Pattern (2) picking (2) pigment (5) pre-treatment (11) printing amp; finishing (8) printing m/c (1) properties (6) rayon (2) reactive dye (11) Recent News (17) RingFrame (9) Sample (1) seam (1) sewing (3) shedding (3) silk (1) Simplex (6) Sinker (3) sizing (10) Spinning m/c (13) stitch (4) stop motion (4) sulpher dye (9) Technical textile (13) Testing m/c (13) textile definition (7) Textile Industry (1) Textile Physics (2) textiletechnology (18) thread (1) tie dye (1) trimming (1) TTQC (21) twill (4) twist (3) Uster m/c (1) vat dye (4) warp knitting (7) warping (8) washing (2) wastage (2) water (2) Weaving (16) weft knitting (2) Wet Process (1) Winding (11) wool (2) Yarn (30)