regenerated manmade fibres

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Basics of textile manufacturing REGENERATED MAN MADE FIBRE

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Page 1: Regenerated Manmade Fibres

Basics of textile manufacturing

REGENERATED MAN MADE

FIBRE

Page 2: Regenerated Manmade Fibres

Fibres whose chemical composition, structure and properties are significantly modified

during the manufacturing process. Man made fibres are spun and woven into a huge number of consumer and industrial products, including garments such as shirts, scarves and hosiery; home furnishing such as upholstery, carpets and drapes; and industrial parts such as tire cord,…

Regenerated Man-Made Fibre

Regenerated man made fibres include Rayon, Viscose, Modal and recently developed Lyocell

Page 3: Regenerated Manmade Fibres

Rayon

A rayon fibre is composed of pure cellulose, the substance of which the cell walls of such woody plants as trees and cotton are largely composed.They are made from cellulose that has been re-formed, or Regenerated; consequently; these fibres are identified as regenerated cellulose fibres

Page 4: Regenerated Manmade Fibres

History of Rayon In 1884, Count Hilaire de Chardonnet produced the first natural man made textile fibre from nitrocellulose and it was named Rayon.

In 1890, l .H. Despaisses of France developed the cuprammonium process for making Rayon.

Although it was not economically competitive to manufacture, improvements in the spinning techniques developed in Germany resulted in Successful commercial production there in 1919.

Its manufacturing was discontinued in 1976 but a relatively small amount of cuprammonium rayon is still produced in Germany and Japan

Page 5: Regenerated Manmade Fibres

Manufacturing ProcessManufacturing Process

In the production of Rayon, purified cellulose is chemically converted into a soluble compound. A solution of this compound is passed through the spinneret to form soft filament that are converted or almost regenerated into almost pure cellulose. Because of the reconversion of soluble compound to cellulose, rayon is referred to as a regenerated cellulose fibre.

Page 6: Regenerated Manmade Fibres

There are several types of rayon fibre in commercial use today, named according to the process by which the cellulose is converted to soluble form and then regenerated rayon fibres are wet spun, which means that the filaments emerging from the spinneret pass directly into the chemical baths for solidifying or regeneration.

Viscose rayon is made by converting purified cellulose to xanthate, dissolving the xanthate in dilute caustic soda and then regenerating the cellulose from the product as it emerges from the spinneret. Most rayon is made by the viscose process.

Page 7: Regenerated Manmade Fibres

Viscose ProcessThe various steps involved in the viscose process is as followed :-

2. Steeping - The cellulose sheets are saturated with a solution of caustic soda (or sodium hydroxide) and allowed to steep for enough time for the caustic solution to penetrate the cellulose and convert some of it into “soda cellulose”, the sodium salt of cellulose. This is necessary to facilitate controlled oxidation of the cellulose chains

and the ensuing reaction to form cellulose xanthate.

1.Cellulose – Purified cellulose for rayon usually comes from specially processed wood pulp.

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3. Pressing - The soda cellulose is squeezed mechanically to remove excess caustic soda solution.

4. Shredding - The soda cellulose is mechanically shredded to increase surface area and make the cellulose easier to process. This shredded cellulose is often referred to as “white crumb”

Page 9: Regenerated Manmade Fibres

5. Aging - The white crumb is allowed to stand in contact with the oxygen of the ambient air.

6. Xanthation - The properly aged white crumb is placed into a churn, or other mixing vessel, and treated with gaseous carbon disulfide.

Page 10: Regenerated Manmade Fibres

7. Dissolving - The yellow crumb is dissolved in aqueous caustic solution. The large xanthate substituents on the cellulose force the chains apart, reducing the interchain hydrogen bonds and allowing water molecules to solvate and separate the chains, leading to solution of the otherwise insoluble cellulose.

8. Ripening - The viscose is allowed to stand for a period of time to “ripen”. Two important process occur during ripening: Redistribution and loss of xanthate groups.

9. Filtering - The viscose is filtered to remove undissolved materials that might disrupt the spinning process or cause defects in the rayon filament.

10. Degassing - Bubbles of air entrapped in the viscose must be removed prior to extrusion or they would cause voids, or weak spots, in the fine rayon filaments.

Page 11: Regenerated Manmade Fibres

11. Spinning (Wet Spinning) - The viscose is forced through a spinneret, Each hole produces a fine filament of viscose.

12. Drawing - The rayon filaments are stretched while the cellulose chains are still relatively mobile. This causes the chains to stretch out and orient along the fiber axis.

Page 12: Regenerated Manmade Fibres

13. Washing - The freshly regenerated rayon contains many salts and other water soluble impurities which need to be removed. Several different washing techniques may be used.

14. Cutting - If the rayon is to be used as staple (i.e., discreet lengths of fiber), the group of filaments (termed “tow”) is passed through a rotary cutter to provide a fiber which can be processed in much the same way as cotton.

Page 13: Regenerated Manmade Fibres

Other forms of regenerated cellulose fibers that are classified by the Commission as rayon without separate, distinctive names include high wet modulus rayon, cuprammonium rayon and saponified rayon.\

High wet modulus rayon is highly modified viscose rayon that has greater dimensional stability in washing.

Cuprammonium rayon is usually made in fine filaments that are used in lightweight summer dresses and blouses, sometimes in Combination with cotton to make textured fabrics with clubbed, uneven surfaces.

When extruded filaments of cellulose acetate are reconverted to cellulose, they are described as saponified rayon, which dyes like rayon instead of acetate.

Page 14: Regenerated Manmade Fibres

Soft and comfortable Easy to dye Drapes well

Rayon fibre Characteristics

The drawing process applied in spinning may be adjusted to produce rayon fibers of extra strength and reduced elongation. Such fibers are designated as high tenacity rayons, which have about twice the strength and two-thirds of the stretch of regular rayon. An intermediate grade, known as medium tenacity rayon, is also made. Its strength and stretch characteristics fall midway between those of high tenacity and regular rayon.

Highly absorbent

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Apparel: Accessories, blouses, dresses, jackets, lingerie, linings, millinery, slacks, sport shirts, sportswear, suits, ties, work clothes

Home Furnishings: Bedspreads, blankets, curtains, draperies, sheets, slipcovers, tablecloths, upholstery

Industrial Uses: Industrial products, medical surgical products, nonwoven products, tire cord

Other Uses: Feminine hygiene products

Major rayon fibre uses

Page 16: Regenerated Manmade Fibres

Most rayon fabrics should be dry-cleaned, but some types of fabric and garment construction are such that they can be hand or machine washed. For washable items, use the following as a guide:

Fabrics containing rayon can be bleached; some finishes, however, are sensitive to chlorine bleach. Use mild lukewarm or cool suds. Gently squeeze suds through fabric and rinse in lukewarm water. Do not wring or twist the article. Smooth or shake out article and place on a non-rust hanger to dry. Rayon sweaters should be dried flat. Press the article while damp on the wrong side with the iron at a moderate setting. If finishing on the right side is required, a press cloth should be used.

Between wearings, rayon articles may be pressed with a cool iron.

General Rayon Fibre Care Tips

Page 17: Regenerated Manmade Fibres

MODAL

Modal is a pure cellulose fibre made of 100% Natural origin wood.

The development of modal fibre began in the 1930s. The Japanese introduced it in 1942 in the form we still use it today. Both Deciduous and Coniferous trees can be used in it's production. Only the highest quality of Cellulose is used to be finished into Modal Fibre.

Viscose is a basic cellulose fibre, whereas Modal is the more refined fibre which is achieved through different finishing techniques.

Page 18: Regenerated Manmade Fibres

Modal Fibre Characteristics

Modal is more durable, and doesn;t wrinkle or shrink as viscose does.

It has an optimum wear comfort- it "breathes“.

It has a good moisture absorption. It has a soft feel It has high colour brilliance It is easy to care

Page 19: Regenerated Manmade Fibres

Advantage of modal over cottonModal is soft, smooth and breathes well. Its texture is similar to that of cotton or silk. It is cool to the touch and very absorbent. Like cotton, modal dyes easily and becomes color-fast after submersion in warm water.

One of the advantages of modal overcotton is its resistance to shrinkage, a notorious problem with cotton. Modal is also less likely to fade or to form pills as a result of friction. Its smoothness also makes hard water deposits less likely to adhere to the surface, so the fabric stays soft through repeated washings.

Page 20: Regenerated Manmade Fibres

General Modal Fibre Care TipsBy carefully following the washing and care instructions on the label will make sure your Nanso Modal garment stays good-looking,1. Machine wash the garment as instructed on the label. Nanso garments are to be washed in warm water at 40 deg celcius.2. No chlorine bleach or detergent with chlorine bleach.3. Spin dry well.4. Pull the garment into its original shape while still damp and hang to dry immediately. If colour running is noticed after washing, please wash it again as instructed. It is important to wash the garment particularly the first time in HOT water to set the colours.

Page 21: Regenerated Manmade Fibres

LYOCELL

Lyocell is a fabric most know better by its brand name ®Tencel®. It has a soft finish, packs light and is made from cellulose (vegetable matter), or wood pulp, typically a mix of hardwood trees like oak and birch. This makes it a natural fabric, and it is noted for its durability and strength, in addition to its eco-friendly manufacturing techniques.

Page 22: Regenerated Manmade Fibres

Manufacturing process of LyocellA process for the manufacture of lyocell fibre with an increased tendency to fibrillation, comprising the steps of :-

(1) dissolving cellulose in a tertiary amine N-oxide solvent to form a solution, (2) extruding the solution through a die to form a plurality of filaments, (3) washing the filaments to remove the solvent, thereby forming lyocell fibre, and (4) drying the lyocell fibre,

wherein the degree of polymerisation of the cellulose is not more than about 450 and the concentration of cellulose in the solution is at least 16 percent by weight.

Page 23: Regenerated Manmade Fibres

Lyocell Fiber Characteristics

Soft, strong, absorbent Fibrillated during wet processing to produce special textures Excellent wet strength Wrinkle resistant Very versatile fabric dyable to vibrant colors, with a variety of effects and textures. Can be hand washable Simulates silk, suede, or leather touch Good drapability Biodegradable

Page 24: Regenerated Manmade Fibres

General Lyocell Fiber Care Tips

Lyocell can be either washable or dry-cleanable, depending on the care label.When the proper finish is applied, lyocell can be laundered at home and is highly resistant to shrinkage.

Page 25: Regenerated Manmade Fibres

THANK YOU