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uroosa junejo

Mehran university of engineering and technology

Engineering
1 of 20
PRESENTATION UROOSA JUNEJO 14TE85
INTRODUCTION TO COMBING  combing process removes predetermined level of short fibers from the group of cotton fibers.  It is well known that the cotton fibers have distribution of fiber lengths starting from long to very short fibers.  For getting high quality of yarn, one extra process is introduced which is called combing process.  The short fibers shorter than 12mm do not contribute to the strength of the yarn, but increase the hairiness of the yarn which effect the appearance and other properties of the yarn.
 Combing involves additional processing steps and also certain amount of fibers are removed as waste. Hence, combed yarn is more expensive than the conventional carded yarn.  Combed yarn is softer than the carded yarn because it is free from short fibers and all dirt and impurities have been removed from the yarn.  The garments made with combed cotton yarns an excellent choice of garments than the carded cotton yarn since it is gentle against the skin.  The combed yarn are finer and smoother and more uniform due to removal of short fibers as compare to carded yarn
TYPES OF COMBER  The major types of combers include:-  Rectilinear comber (with stationary or oscillating nippers),  Circular combers (English worsted process),  Rotary comber (production of Schappe spun yarns) and  Hackling machines ( bast fibers).
SHORTCOMINGS OF THE COMBING MACHINE  On the other hand, one has to keep in mind the following shortcomings of having an additional combing section in the yarn manufacturing system.  The combing section is an insertion of mostly three machines into the normal spinning process between card and draw frame.  It serves as an installation to improve yarn quality if the carded yarn does not meet requirements. There is no doubt that this process with three additional machines increases the cost of the yarn.  A further increase in cost results from the design of the comber itself, which is not very satisfactory due to intermittent processing.
OPERATIONS IN COMBING PROCESS  Elimination of a precisely predetermined quantity of short fibers  Elimination of short fibers improves the stable length of the combed cotton.  This also result in improves the fineness of the raw material. The short fibers removed in combing process is called noil. It is usually referred as a percentage of the total amount of material feed to the comber.  Noil percentage= weight of noil produced/total weight of cotton fed*100
 The amount of noil removed depend upon the industry and the needs ranging from 8 to 25 %.  Elimination of remaining impurities  Although most of the larger and finer trash particles and foreign material already removed in blow room and carding operation, still some fine dust particles are found to present in the carded sliver. which are removed during combing operation.
 Elimination of neps in the fiber material  Due to improper settings and conditions in carding operation, some of the neps still remain in carded sliver.  In the combing process, these neps get either removed or straightened due to action of the combing needles or inter fiber rubbing and sliding.  Formation of sliver having maximum possible fiber parallelization  It should be noted that in combing, fiber parallelization increases. Please note that this is a side effect which is not an advantage always.
 . The high degree of parallelization might reduce inter-fiber adhesion in the sliver to such an extent that the fibers slide apart while pulled out of the can. This may lead to sliver breaks or false draft  Combing is the process which is used to upgrade the raw material. It influences the following yarn quality.  Yarn evenness  Strength  Cleanliness  Smoothness  Visual appearance
TYPES OF APPLICATION  Combing improves the quality of the yarn at the cost of removing some amount of expensive raw material with additional cost involving machinery, energy and labour.  Hence the decision to use comber and remove certain amount of noil for a particular application is more of techno commercial one. Correspondingly, basic distinctions are drawn between three major groups of spinning mills using combing:
 Fine count spinning mills :  These organizations use best quality, expensive cotton of high strength, containing a low proportion of short fibers and trash.  The final product is usually a fine to very fine yarn of best quality. This puts highest demands on the know-how and skills of operating personnel.  It also needs modern machines with best designs and technology with proper maintenance of the machines. In these cases, yarn production rate is less of a concern, with high generation of noil to ensure the best quality for yarns.
 Medium count spinning mills :  In this case, cotton of medium properties with varying quality parameters are spun into medium and fine yarns of acceptable quality at reasonable economic production costs.  This is becoming a more widely used process in practice. Noil extracted is in the medium range and the production rate is quite high.  This is a highly competitive process in the sense that it has to yield high standard of quality at high production rate with low cost.  This can be attained only with very stringent work practices with well trained personnel.
 Coarse to medium count spinning mills :  In this case, combing is an optional process to upgrade the yarn cleanliness, smoothness and strength.  This may use the same raw material used for producing carded of the same count. Because of additional combing process, in comparison with a carded yarn, the combed yarn exhibits better yarn properties.  Again in this case the production rate and cost of production is not compromised with improved quality with removal of noils in range of 8 to 18%.  In case of fine counts combing is an essential process in order to get the minimum number of fibers after removing certain amount of short fibers, where as in this case it is only optional. 
DISADVANTAGES OF COMBING  Short term unevenness.  sliver breaks at coiler.  The cost of additional expenditure on machine.  The cost of additional expenditure on material due to loss of material as noil.  Floor space.  More energy is required.  Effect fineness of raw material.  The micronaire value is higher than the feed stock.
Combing sequence/ cycle  comber sequence is given below:  Lap feeding by feed roller  Lap nipping by the nipper  Combing by the cylinder  Nipper opening and forwarding  Detaching roller backward movement  Piecing  Combing by the top comb  Detaching roller forward movement  Starting a new cycle  Cleaning of cylinder comb
WORKING PRINCIPLE OF COMBER  The lap to be used is unrolled through the lap feed rollers and lap sheet is introduced into the feeding roller. The nippers and the feeding roller perform a backward and forward motion. during the forward motion, the upper part of the nippers opens and during the backward motion closes again. As a result of this movement, the feeding rollers are driven and the feed lap sheet step by step over the end of the bottom nippers. The nippers clamp the lap sheet, which is combed from below by the circular comb. Short fibers, which are no longer clamped between the nippers, cling to the circular comb.
 The brush cleans the circular comb of the clinging fibers, which are then pulled off by the suction.  The long fibers will be taken over by the forward and backward motion of the detaching roller. The web produced is formed into a sliver in the condenser of the calendar rollers. All slivers from the eight combing positions are then guided into the draft system coiled into the can.
TYPES OF FEED  In general there are two types of feed:  Forward feed: The material is fed whilst the nippers is rocking towards the detaching rollers.  The major operational sequence is :  Combing Detachment Feed Combing  Backward feed: The material is fed during the return of the nippers. The operational sequence is:  Combing feed Detachment combing
THANKS…

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Presentation

  • 2. INTRODUCTION TO COMBING  combing process removes predetermined level of short fibers from the group of cotton fibers.  It is well known that the cotton fibers have distribution of fiber lengths starting from long to very short fibers.  For getting high quality of yarn, one extra process is introduced which is called combing process.  The short fibers shorter than 12mm do not contribute to the strength of the yarn, but increase the hairiness of the yarn which effect the appearance and other properties of the yarn.
  • 3.  Combing involves additional processing steps and also certain amount of fibers are removed as waste. Hence, combed yarn is more expensive than the conventional carded yarn.  Combed yarn is softer than the carded yarn because it is free from short fibers and all dirt and impurities have been removed from the yarn.  The garments made with combed cotton yarns an excellent choice of garments than the carded cotton yarn since it is gentle against the skin.  The combed yarn are finer and smoother and more uniform due to removal of short fibers as compare to carded yarn
  • 4. TYPES OF COMBER  The major types of combers include:-  Rectilinear comber (with stationary or oscillating nippers),  Circular combers (English worsted process),  Rotary comber (production of Schappe spun yarns) and  Hackling machines ( bast fibers).
  • 5. SHORTCOMINGS OF THE COMBING MACHINE  On the other hand, one has to keep in mind the following shortcomings of having an additional combing section in the yarn manufacturing system.  The combing section is an insertion of mostly three machines into the normal spinning process between card and draw frame.  It serves as an installation to improve yarn quality if the carded yarn does not meet requirements. There is no doubt that this process with three additional machines increases the cost of the yarn.  A further increase in cost results from the design of the comber itself, which is not very satisfactory due to intermittent processing.
  • 6. OPERATIONS IN COMBING PROCESS  Elimination of a precisely predetermined quantity of short fibers  Elimination of short fibers improves the stable length of the combed cotton.  This also result in improves the fineness of the raw material. The short fibers removed in combing process is called noil. It is usually referred as a percentage of the total amount of material feed to the comber.  Noil percentage= weight of noil produced/total weight of cotton fed*100
  • 7.  The amount of noil removed depend upon the industry and the needs ranging from 8 to 25 %.  Elimination of remaining impurities  Although most of the larger and finer trash particles and foreign material already removed in blow room and carding operation, still some fine dust particles are found to present in the carded sliver. which are removed during combing operation.
  • 8.  Elimination of neps in the fiber material  Due to improper settings and conditions in carding operation, some of the neps still remain in carded sliver.  In the combing process, these neps get either removed or straightened due to action of the combing needles or inter fiber rubbing and sliding.  Formation of sliver having maximum possible fiber parallelization  It should be noted that in combing, fiber parallelization increases. Please note that this is a side effect which is not an advantage always.
  • 9.  . The high degree of parallelization might reduce inter-fiber adhesion in the sliver to such an extent that the fibers slide apart while pulled out of the can. This may lead to sliver breaks or false draft  Combing is the process which is used to upgrade the raw material. It influences the following yarn quality.  Yarn evenness  Strength  Cleanliness  Smoothness  Visual appearance
  • 10. TYPES OF APPLICATION  Combing improves the quality of the yarn at the cost of removing some amount of expensive raw material with additional cost involving machinery, energy and labour.  Hence the decision to use comber and remove certain amount of noil for a particular application is more of techno commercial one. Correspondingly, basic distinctions are drawn between three major groups of spinning mills using combing:
  • 11.  Fine count spinning mills :  These organizations use best quality, expensive cotton of high strength, containing a low proportion of short fibers and trash.  The final product is usually a fine to very fine yarn of best quality. This puts highest demands on the know-how and skills of operating personnel.  It also needs modern machines with best designs and technology with proper maintenance of the machines. In these cases, yarn production rate is less of a concern, with high generation of noil to ensure the best quality for yarns.
  • 12.  Medium count spinning mills :  In this case, cotton of medium properties with varying quality parameters are spun into medium and fine yarns of acceptable quality at reasonable economic production costs.  This is becoming a more widely used process in practice. Noil extracted is in the medium range and the production rate is quite high.  This is a highly competitive process in the sense that it has to yield high standard of quality at high production rate with low cost.  This can be attained only with very stringent work practices with well trained personnel.
  • 13.  Coarse to medium count spinning mills :  In this case, combing is an optional process to upgrade the yarn cleanliness, smoothness and strength.  This may use the same raw material used for producing carded of the same count. Because of additional combing process, in comparison with a carded yarn, the combed yarn exhibits better yarn properties.  Again in this case the production rate and cost of production is not compromised with improved quality with removal of noils in range of 8 to 18%.  In case of fine counts combing is an essential process in order to get the minimum number of fibers after removing certain amount of short fibers, where as in this case it is only optional. 
  • 14. DISADVANTAGES OF COMBING  Short term unevenness.  sliver breaks at coiler.  The cost of additional expenditure on machine.  The cost of additional expenditure on material due to loss of material as noil.  Floor space.  More energy is required.  Effect fineness of raw material.  The micronaire value is higher than the feed stock.
  • 15. Combing sequence/ cycle  comber sequence is given below:  Lap feeding by feed roller  Lap nipping by the nipper  Combing by the cylinder  Nipper opening and forwarding  Detaching roller backward movement  Piecing  Combing by the top comb  Detaching roller forward movement  Starting a new cycle  Cleaning of cylinder comb
  • 16. WORKING PRINCIPLE OF COMBER  The lap to be used is unrolled through the lap feed rollers and lap sheet is introduced into the feeding roller. The nippers and the feeding roller perform a backward and forward motion. during the forward motion, the upper part of the nippers opens and during the backward motion closes again. As a result of this movement, the feeding rollers are driven and the feed lap sheet step by step over the end of the bottom nippers. The nippers clamp the lap sheet, which is combed from below by the circular comb. Short fibers, which are no longer clamped between the nippers, cling to the circular comb.
  • 17.  The brush cleans the circular comb of the clinging fibers, which are then pulled off by the suction.  The long fibers will be taken over by the forward and backward motion of the detaching roller. The web produced is formed into a sliver in the condenser of the calendar rollers. All slivers from the eight combing positions are then guided into the draft system coiled into the can.
  • 18.
  • 19. TYPES OF FEED  In general there are two types of feed:  Forward feed: The material is fed whilst the nippers is rocking towards the detaching rollers.  The major operational sequence is :  Combing Detachment Feed Combing  Backward feed: The material is fed during the return of the nippers. The operational sequence is:  Combing feed Detachment combing