Development of Sustainable Textiles from Kenaf-Cotton Blended Yarn

In the recent years, developing new yarn is the fundamental phenomenon for technical textiles. Different yarns are required now days for both technical as well as for aesthetic properties. Kenaf has good antimicrobial, fire resistance and absorbency that can be utilized in various textiles needed for society. The Kenaf cotton blended yarn of 50%-50% was produced through rotor spinning and was spun into 10Ne count. The quality was evaluated for yarn strength, yarn elongation, evenness and hairiness. The quality parameters of kenaf-cotton blended yarn were compared to 100% cotton yarn. The results reveal that the kenaf-cotton blended yarn were in comparable quality with 100% cotton and can be made into fabrics of different weave structures and can be utilized for various potential applications like home textiles and medical textiles focusing towards a sustainable environment.


Introduction
Substantial amount of textiles is now used in homes to make life more comfortable. Textiles are also widely used in many industrial and technical textiles. Fabrics in earlier days were derived from fibers of animals and natural plant sources. In addition, social, psychological, physiological, physical economic parameters play a vital role in the selection of textile products, wearing and purchase decision.
Kenaf is a cellulosic fiber also known as Hibiscus Cannabinus L, which is grown in 12 states in India [1]. It grows in all soils at all climatic conditions with minimal amount of water for its growth [2]. The fibers are around 1m to 1.5m in length. It has got good absorbency, fire resistance and antimicrobial properties that can be utilized in textiles for various applications [3]. It is not affected by humidity and has excellent sound insulation and thermal insulation properties [4]. Single yarn fabric posses only the properties of one fiber but blended yarn posses the properties of both the fibers and hence they have unique characteristics Salam et al. [5], currently various researches are taking place on yarns and fabrics made from kenaf fiber. Some of them include researches on carding of the bast fibers Tao et al. [6], retting conditions for separating the bast fibers Lee et al. [7], Lee et al. [8], Morrision et al. [9], Parikh et al. [10] Wang et al. [11], physical/chemical properties of kenaf fibers [8,9,12],blending kenaf fibers with cotton Ramaswamy et al. [13] , Ramaswamy et al. [14] and rayon Lee et al. [15]and researches on nonwovens with kenaf fiber Parikh et al. [16]. These researches not only focuses towards sustainable development but also adds value to the crop. This research mainly focuses towards the development of kenaf cotton blended yarn and evaluation of the quality parameters of the yarn that can be fabricated and used in various fields of textiles.

Softening of kenaf fiber
The fiber bundles were taken and were soaked in a vessel containing water. The vessel containing the Kenaf fibers were allowed to boil for 3 hours. After 3 hours the fibers were taken out and were allowed to dry.

Blending of kenaf and cotton
The softened fibers were cut in the length of 1 inch. The cut fibers were blended with cotton of length 30mm in the ratio 50%-50% blend ratio. It is a mechanical process that cleans and mixes fibers to produce webs or sliver suitable for subsequent processing. The fibers are passed through various rollers of different surfaces. It breaks the clumps formed in the fibers and then parallelizes the fiber. The kenaf fiber and the cotton fiber in the 50%:50% ratio was blended and was carded in a miniature carding machine and kenaf cotton webs were formed at first stage. The kenaf cotton webs produced were again carded to form the carded sliver (Figure 4).

Results and Discussion
Kenaf cotton yarns were produced and were compared to the yarns produced from 100% cotton yarn [19]. The yarns produced had nominal strength. Due to the nominal strength of the yarn, elongation of the yarn was good. The U% of the yarn was 23% which is suitable to be spun into fabrics of various weave structures. Generally, the rotor spun yarns have less hairs than the ring spun yarns Zhang et al. [21].

Conclusion
Thus kenaf cotton blended yarns were successfully produced. Blended yarns are usually coarser than the single yarns. Softening with enzymes can also be implemented to improve the quality of this kenaf cotton yarn for textile applications. The yarns produced were not superior to 100% cotton yarns yet these yarns have various other attributes like color, luster, texture, appearance etc… Kenaf has various other natural properties like absorbency, fire resistant, sound insulation, Thermal insulation that will create a great impact on industrial textiles. The fabrics produced from these yarns can be used for bags, mats, home textiles, outer wear etc… Making use of kenaf fibers for various potential applications may also expand the cultivation of kenaf fibers.