Showing posts with label Polymer. Show all posts
Showing posts with label Polymer. Show all posts

Tuesday, January 15, 2013

POLYMER SPINNING | DRAWING OR STRETCHING AND HEAT SETTING OF POLYMER YARNS

POLYMER SPINNING 
Polymer spinning is important part of man made fiber and yarn manufacturing technology. Polymer spinning is very popular and result oriented synthetic spinning method. Although melt- spinning, dry-spinning, and wet-spinning techniques are used to form the vast majority of manufactured polymer fibers, several other spinning techniques also exist and may be applied in a limited number of specialized situations. High-molecular-weight polymers, such as those in Spectra@ polyethylene, are formed by solution spinning or gel spinning. As in wet and dry spinning, the polymer is dissolved in a solvent. The polymer and solvent together form a viscous gel that can be processed on conventional melt-spinning equipment to form a gel-like fiber strand. 

Later in the processing, the solvent is extracted and the fibers stretched. Fibers made from polymers that have extremely high melting points and are insoluble present obvious difficulties in spinning. Such materials may be spun by a complex process called emulsion spinning in which small, fibrous polymers are formed into an emulsion, aligned by passing the emulsion through a capillary, then fused or sintered (combined by treating with heat without melting), passed through the spinneret into a coagulating bath, and subsequently stretched. 

DRAWING OR STRETCHING OF POLYMER YARN
Both crystalline and amorphous arrangements of molecules exist within newly formed filaments. It is possible to orient these molecules to make them more parallel to the walls of the filament, and therefore more crystalline and stronger, by stretching the filament before it is completely hardened after polymer spinning. 

Newly formed filaments are, therefore, subjected to drawing or stretching. Depending on the fiber type, this may be done under cold or hot temperature conditions and has the additional effect of making the filament both narrower and longer. Fibers made from polymers that have a low glass transition temperature, such as nylon, can be drawn at room temperature. 

In case of polymer spinning, The polymers are mobile and can be pulled into positions parallel to the fiber length. Polyester, on the other hand, has a higher glass transition temperature and so must be heated to be drawn. Drawing is accomplished by stretching the fibers between two rollers, called Codet rolls, with the second roller rotating faster. 

Not all yarns are drawn to the maximum amount possible, because when a fiber reaches its maximum length, the extensibility of the yarn and fiber are lowered. Yarns that have not been fully drawn are called partially oriented yarns (POY). Those that have been fully drawn are called fully oriented yarns (FOY). Lower speeds in melt spinning produce fibers with lower orientation. As is true of many other textile processes, precise control of the process must be maintained so that the manufacturer can achieve the qualities needed in the final product. 

Other steps may be added, such as texturing (in which crimp is added to the filaments) or heat-setting treatments to ensure very low shrinkage as is required in fibers for automobile tires. Sometimes two or more steps may be combined into consecutive operations to reduce manufacturing costs, so that the fibers may go from spinning directly to drawing or from spinning to drawing to texturing. 

HEAT SETTING AFTER POLYMER SPINNING
Thermoplastic manufactured fibers may shrink when exposed to heat. To prevent shrinkage, such fibers are treated with heat during manufacturing to “set” them into permanent shape. Exposure during use and care to temperatures greater than the heat-setting temperature will counteract the heat setting, resulting in fiber shrinkage or loss of heat-set pleats or creases. 

As the technology for producing manufactured fibers has become more highly developed, manufacturers have turned to increasingly sophisticated techniques for creating new fibers. Different fiber shapes and sizes, as well as unique combinations of polymer types in the same fiber, are but several examples of these techniques. 

Thursday, May 26, 2011

Marketing of Man-Made Fibers

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Man-made fibres Market analysis:
Man-made fibres are marketed as commodities, as brand name fibers or as controlled brand name fibers. Fibers marketed as commodities are used without identification of source and are sold to any buyer in the open market. A dress labeled 100% Polyester has been made with commodity polyester fibers. Brand name man made fibers are identified by source through the brand names used. The fiber producer spends much Promotion money to establish his brand name and expects manufacturers, wholesalers and retailers down the line to take advantages of it. The man made fiber producer, however, frequently does not have complete control over the use of his brand name after the mill buys the finer. It is possible that a quality fabric could be used to make a poorly constructed garment and that this article would carry the fiber brand name on a label or hang tag. He controlled brand name approach enables the fiber maker to rigidly control the selling and subsequent use of the fiber.

Relationships are established with specific textile mills and fabric users who will utilize the fiber properly. A quality control program by the fiber producer insures that only products, which have satisfactorily passed various tests related to the end use, are allowed to use the fiber brand name. Unfortunately, consumer is usually unable to distinguish between a controlled brand name fiber and an uncontrolled brand name fiber.

Most of the fiber companies will sell their regular type fibers as a commodity as well as with a brand name. Under a licensed brand name or trademark program, the licensing company allows its brand name or trademark to be used by other companies in return for a specified remuneration.
In some cause, the product made by the licensee is carefully checked for quality by the licensor, but in other cases, it is not.

Man-made fiber producers license their Fiber brand names to certain mills that buy their fibers. The fiber brand name hangtags are later attached, for examples, to garments or draperies made from the licensed mill’s fabric. The fiber producer is compensated by receiving a slightly higher price from the mills than if the fibers were sold unbranded.

A licensed controlled brand name or trademark program means that the product also has satisfactorily passed various tests related to its end use before the brand name can be used. The tests are specified by the licensor. Such a program requires the maintenance of a quality control program to insure that the comp anises to which the trademarks or brand names have been licensed are making products that meet certain levels of quality.

In this way, the licensor can best attempt to insure that the brand name or trademark will not lose its value. Unfortunately, the levels or quality are not the same for each program and the consumer frequently does not know which controlled brand names indicate the best quality products.

The licensed controlled brand name programs of the textile industry became important in the early 1930’s when Cluett, Peabody & Company started to license their fabric shrinkage processes using the name Sanforired and Joseph Bancroft and Sons started to license their Everglaze Process, which insured fabric luster. In the 1960’s, the Celanese Corporations became the first major proponent among fiber producers of the licensed controlled brandname programs. Fabrics, as will as garments and other articles containing its branded fibers, had to pass specified quality tests before a Celanese hang tag would be placed on t he item. The program is still continuing.

The following are some of the textile licensed controlled brand name or trademark programs presently in use to market of man made fibre:

A. Polyextra ® textured polyester yarn program for upholstery fabrics—BASF Corporation.
B. Sanforized ® program for shrinkage control of woven fabrics and Sanforized Plus- 2 ® which is durable press program – Cluett, Peabody & Company;
C. Trevira ® polyester program for fabric quality – Hoechst Celanese Corporation;
D. Zepel ® program for fabric water and stain repellency quality
E. I. Du Pont de Nemours & Company. Inc.

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Wish you good luck...........................................................
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