Coco fibre, a natural fibre derived from the husk of the coconut, lies between the hard shell of the coconut and its outer layer. This fibre is used in the production of a wide variety of goods. including doormats, mats, brushes, and mattresses. The high lignin and low cellulose content of coco fibre makes it tough, strong and extremely durable. The lightness of the fibre is due to the voids that form during the drying of the coir cells. High-quality coir fibre is light in colour, either golden yellow (from immature coconuts) or brown (from mature coconuts). Brown fibre, obtained from mature coconuts, is used for upholstery, sacks and horticulture. In contrast. white fibre, which comes from immature coconuts, is used to make finer brushes, ropes and nets.

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Cocofiber, derived from the husk of the coconut, is a versatile material with a broad spectrum of applications. It is used in various industries, serves as a planting medium, and is also utilized for animal bedding. The primary advantages of cocofiber are its sustainability and environmental friendliness. As a renewable natural resource, it decomposes easily, reducing waste in landfills. Furthermore, cocofiber is relatively inexpensive and readily available in the market. making it a cost-effective choice.
When used as a planting medium, cocofiber offers several specific benefits. It enhances aeration, creating air pockets that reach plant roots and improve drainage. Despite being the least absorbent coconut husk product, cocofiber holds a decent amount of water compared to conventional planting mediums, slowly releasing it to keep plants hydrated without causing root rot. Even small amounts of cocofiber contain essential nutrients like potassium and phosphorous, promomoting healthier plant growth. Additionally, cocofiber is resistant to fungi and diseases providing a safe growth medium for plants.
In conclusion, cocofiber is a benefical material for various applications, perticularly as a planting medium. Its versatility, sustainability, affordability, and environmental friendliness make it an excellent  choice fpr a wide range of uses. Whether you're looking for a sustainable plenting medium or a cost-effective industrial material, cocofiber is a reliable option

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Coir, The Golden Fibre

C o ir b e lo n g s to th e fam ily o f h ard fibres along w ith o th er fibres su ch as sisal, h e n e q u e n and abaca. It is a multi-cellular fibre with cellulose and lignin as... read more

Mattress And Bristle Fibre

C oconut is not altogether nutty as it sounds. Most of it is made out of a husk that actually represents the cover of the fruit. The natural packaging, provided to protect the seed inside is amazing. It has a leathery coat called the husk that enables migration across the... read more

Coconut Fibre Dus

Coconut Fibre Dust, also called Coco Pith, Coco Peat, Coir W aste etc., is the material binding and keeping in place the different types o f fibre in the coconut husk. It consists mainly o f lignin and cellulose. It is obtained in the extraction o f coconut fibre. It... read more

A Tough Nut To Crack - Accelerating Innovation In The International Coir Fibre Sector

Even though "green" products have caught the imagination of industries and the general public the reality is that for decades, the Jute, Abaca, Coir, Kenaf and Sisal (JACKS) Fibers, which are renewable materials, have lost market share or have been stuck in the low value added spectrum of products. Lack... read more

Ecofriendly Organosolv Process for Pulping of Tender Coconut Fibre

The huge biomass generated by vendors of tender coconut is the broken husks refuse dumped along roads and highways in Kerala. These dumps become breeding grounds for diseased causing germs and carrier mosquitoes causing threat to human life. In order to avoid pollution and find use of the rejected biomass... read more

Low Temperature Grafting of MMA on to Coir Fibre

Low temperature grafting of methyl methacrylate (MMA) on to coir fibre was carried out in aqueous medium using Potassium per sulphate (PPS) as an initiator under the catalytic influence of Ferrous ammonium sulphate (FAS). Optimization of various parameters of grafting viz. monomer, initiator and catalyst concentration, time and temperature was... read more

Improvement in Physical Properties of MMA Grafted Coir Fibres

This work deals with the surface modification of Coir fibre through graft copolymerization process. Graft copolymerization of methyl methacrylate (MMA) onto coir fibre was carried out with Potassium per sulphate (PPS) as an initiator under the catalytic influence of Ferrous ammonium sulphate (FAS) in aqueous medium. Control and grafted coir... read more

Quest for Better Technology: Case of Brown Coir Fibre Industry in Sri Lanka

The purpose of this study was to assess the impact of a number of attributes (a = 23) upon 5 major factors (Labor, Land and Capital, Machine, Technical and Market) that influence a selection of a particular technology to manufacture brown coir fibre in Sri Lanka (i.e. Sri Lankan Drum... read more

Characterization and Properties of Sri Lankan Coir Fibre

This study mainly concentrated on revealing the scientific data on the properties of Sri Lankan coir fibre and classifying them into different grades based on scientific parameters instead of visual observations to establish quality specifications for the coir fibre industry in Sri Lanka. Critical parameters were studied for suitability of... read more

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