Coconut or coir Fiber
Coir or coconut fiber belongs to the group of hard structural fibers. It
is an important commercial product obtained from the husk of the
coconut. Industries based on coir have developed in many coconut
producing countries especially India, Tanzania, Kenya, Bangladesh,
Burma, Thailand, Sri Lanka, Nigeria, Ghana etc.
Coir or coconut fiber belongs to the group of hard structural fibers. It
is an important commercial product obtained from the husk of the
coconut.
Industries based on coir have developed in many coconut producing
countries especially India, Tanzania, Kenya, Bangladesh, Burma,
Thailand, Sri Lanka, Nigeria, Ghana etc. In India, coir manufacture is a
traditional industry, which has taken deep roots in the economic
structure of the rural areas in the coastal states.
The industry sustains over half a million people and contributes
substantial foreign exchange to the national exchequer. India was ranked
first among the coconut producing countries of the world until 1921,
since then, the position has changed. Indonesia and Philippines have
increased their production and India now occupy the third place. These
three countries together account nearly 65 percent of the world
production (4.5 m mt) out of which India’s share is about 25 percent.
Harvesting and Processing
The fruits are harvested when still green to obtain the best quality
coir. Husk usually forms 35.45 percent of the weight of the whole nut,
when ripe. Husks from ten to eleven-month-old nuts have been found to
give superior quality fiber possessing a golden yellow color. The fiber
from the husk is extracted on a commercial scale, either by natural
retting process or by mechanical decortication.
Mechanical Methods
Mechanical methods of retting are employed in areas where facilities for
natural retting do not exist. Either dry or green husks are soaked in
cement tanks for a period varying from a few hours to three weeks and
the fiber extracted manually or mechanically. In one method, the husks
are first crushed through a series of corrugated iron rollers, a machine
called husk crusher. Then the husks are thrown into a retting tank
where they undergo fermentation for a minimum period of 72 hours. This
process, however, does not yield fiber of spinnable quality as in the
case of natural retting, but yields only bristles and mattress fibers.
Chemical Methods
Various chemical methods have also been developed for the retting of
husk. The advantages claimed includes higher yield of uniform quality
fiber and a considerable saving of time.
- Nanji Process. The green or dry husks are partially crushed and treated under the steam pressure of 36.4-45.4 kg/sq. inch. With sodium sulfate or sodium carbonate containing traces of aluminum sulfate for 1-2 hours. During this process, the pith is loosened from the fiber and removed by washing. The fiber obtained is of good quality but slightly darker than that of natural retting.
- Elod and Thomas Process. The crushed husks are immersed in hot water twice. Slaked lime or similar substance is added during the second immersion in order to avoid discoloration. Subsequently, the fiber is extracted mechanically.
- Rowel Process. The crushed husks are subjected to a high steam pressure and the fiber come out loose from the steaming chambers.
- Vander Jaget Process. The husks are first to split into pieces. The pieces are then boiled with a weak solution of caustic-soda and squeezed. The compressed fibers are reopened, softened and cleaned. It is claimed that good quality fiber could be produced using this technique in less than two hours.
- Caraan Process. The husk is fermented for four days at 37°C with the aid of the fungus Aspergillus sp., previously isolated from partially retted husks. This process is reported to give 37 percent fiber output.
Extraction of Fibre
After retting, the husks are taken out of the water and washed. Outer
skin peeled off, placed on wooden blocks and beaten with a wooden mallet
for separating the fibers from the pith. After fibers are separated
from the pith, these are cleaned and then spread on the shade for
drying. The fibers spread for drying are occasionally beaten and tossed
up with poles to remove the remnants of pith and impurities still
adhering to the fiber. For making superior types of fiber, especially
for spinning, improved methods exist.
It is estimated that the annual production of coir in India nearly
amounts to 1 m mt. Three classes of fiber are recognized in the trade.
They are Mat, Curl (toe or mattress)and Bristle fiber. The bulk of fiber
produced on the west coast of India is mat fiber. Mat fiber is
sometimes used as a substitute for hemp in certain cordages. Curl fiber
is obtained mostly from untreated husk and is short; it is used for
mattresses or for stuffing upholstery, cushions etc. Bristle fiber,
which is coarse and thick, is used for making brushes, and brooms.
Bristle fiber is not produced in India but mostly imported from Sri
Lanka.
Fiber Structure
- Individual fibers are 0.3-1.0 mm long and 0.01-0.0.2 mm in diameter; the ratio of length to diameter being 35. The lumen is medium to large, polygonal-rounded, or elliptic. The vascular bundle is collateral and is surrounded by a thick sclerenchymatous sheath. Lignin and hemicelluloses, which form the cementing materials of fiber cells, increase with the age of the fiber and the pectin decreases. As the lignin content increases, the fiber becomes stiffer and tougher.
- Length of the fiber determines its spinnability and commercial utility. Spinnability may be defined as the ease with which textile fibers may be twisted into continuous, uniform yarns, having commercially acceptable properties.
The chemical composition of coconut husk and coir fiber:
Properties
|
Percentage
|
Total water solubles
|
26.00
|
Pectins etc. soluble in boiling water
|
14.25
|
Hemi-celluloses
|
8.50
|
Lignin
|
29.23
|
Cellulose
|
23.81
|
Coir fiber is classified according to its length. Following lengths are commonly visible
- Long fibers (15 cms. And above)
- Medium ( 12-15 cms.)
- Short ( 6-8 cms.)
- Very short (4 cms.)
Deterioration
Coir has been found to be remarkably resistant to both fungal and bacterial decomposition.
Spinning
The spinning of coir yarn is mainly a cottage industry in India and
abroad. It is produced either by wheel spinning or hand spinning or
mechanized spinning. Handspun yarn is soft and the twist and thickness
are even. Wheel spun yarn has a hard twist; it is stronger and more
uniform in size and twist than handspun yarn.
The classification of coir yarn is based on variations of color, twist,
pitch, scorage etc. and also an area of production like; Anjengo,
Aratony, Alapat, Beach, Ropeyarn, Parur, Muppiri etc.
Weaving
Coir yarn is treated with a dilute solution of sulphuric acid, which
improves its color and gives a certain amount of brightness for the
production of mats, Coir mats, fiber mats, specialty mats, Mattings,
rugs, bouzouki, carpets etc.
Dyeing and Printing
Colour and design play an important part in the marketing of coir
products. Dyed yarn is exported to Australia for the manufacture of
matting. The following dyestuffs are employed in coir dyeing.
Chrysoidine YS, Bismarck Brown, Methyl Violet, Malachite Green, Magenta,
Naphthalene orange, Naphthalene Red, Naphthalene Green etc.
Ropes & Cordages
Coir is resistant to the action of water and has the property of
elongation without breaking. By virtue of these properties, coir has
long been used for ropes and cordages. Very short (4 cms.)
Uses of Coir
- Besides its main use as a floor covering and in rope making, coir fiber finds extensive use as packaging material to protect goods against shock in transport.
- Coir fiber finds its use in the production of activated carbon, artificial horse hair, paper pulp, roofing tiles, writing boards, thermal insulations, high stretch paper, manufacture of olive oil filters etc.
- In Germany, coir is rubberized for making cushion seating for automobiles and railways. The rubberization is brought about by Splashing layers of coir fiber and rubber with the help of a specialized machine.
- Coir yarn has been found to be the ideal lead for hop wines which is used in a brewery in U.S.A Coir bags are used in tea estates for collecting tea leaves and for transportation: and also for lifting coal from mines.
- Coir yarn is used for making fenders which are attached to ships and boats for preventing collision and shock.
- Coir mats are used for commercial packaging purposes and circular brush mats are used for packing.
- Coir mattings after bituminization offer possibilities of being used as a floor covering in godowns to withstand moisture adsorption by stored goods.
- Rubber backed coir mats are sol-proof, sound absorbent and do not scratch a polished floor. Heavy matting made out of thick coir rope is being used for transporting gas cylinder. It is used as a strainer in tube wells in place of wire mesh.
- Hardboards made of coconut husk shorts and coir dust is durable, smooth, insect proof, fire retarding and water-repellent. They may be sawed, nailed, glued and finished into a particular requirement.
- Coir waste has been recently used in the manufacture of Coprolite by incorporating with resins and other ingredients by the usual techniques of plastics manufacture. The powder so obtained is hotpressed to obtain articles of any shape using appropriate molds. It is a tough and hard material and possesses good strength and electrical resistance.
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