īoopathi L, Sampath PS, Mylsamy K (2012) Investigation of physical, chemical and mechanical properties of raw and alkali treated Borassus fruit fiber. Compos Part A Appl Sci Manuf 40(4):404–412īolton AJ (1994) Natural fibers for plastic reinforcement. īledzki AK, Jaszkiewicz A, Scherzer D (2009) Mechanical properties of PLA composites with man-made cellulose and abaca fibres. Macromol Mater Eng 291(5):449–457īledzki AK, Mamun AA, Faruk O (2007) Abaca fibre reinforced PP composites and comparison with jute and flax fibre PP composites. Prog Polym Sci 24(2):221–274īledzki AK, Faruk O, Sperber VE (2006) Cars from bio-fibres. New York, Taylor and Francisīledzki AK, Gassan J (1999) Composites reinforced with cellulose based fibres. United States Department of Agriculture, Economic Research Service, Washington, DCīlackburn RS (2005) Biodegradable and sustainable fibres, vol 47. Colloids Surf A Physicochem Eng Aspects 267(1–3):19–23īerkley EE, Hessler LE, Burneston EB, Chew CF (1949) A study of the quality of Abaca fiber. Marmara Üniversitesi Döner Sermaye İşletmesi Teknik eğitim Fakültesi Matbaa Birimi, İstanbulīellmann C, Caspari A, Albrecht V, Doan TL, Mäder E, Luxbacher T, Kohl R (2005) Electrokinetic properties of natural fibres. Accessed 24 July 2019īaser I (1992) Elyaf Bilgisi. Accessed 4 July 2019īarong Tagalog (2006) From Wikipedia, the free encyclopedia. Tekstil Teknolojileri Elektronik Dergisi 6(1):47–53Īmatta JD (2017) FMA5: abaca fiber production in antique. Īlan G, Tercan M (2012) Sıvı Filtrasyonunda Kullanılan Tekstiller. Accessed 18 July 2019Īgung EH, Sapuan SM, Hamdan MM, Zaman HMDK, Mustofa U (2011) Study on abaca (Musa textilis Nee) fibre reinforced high impact polystyrene (HIPS) composites by thermogravimetric analysis (TGA). Accessed 20 July 2019Ībaka Weaving of Shelmed (2012) Proudly Philippine made. KeywordsĪbaca Fiber Production Process in Antique (2017). In this chapter, information regarding abaca fiber, its production, its chemical structure, and its physical, chemical, and mechanical properties and sustainable textile designs made from sustainable abaca fibers, is given in detail. Indeed, nowadays, abaca fibers can be utilized in the place of glass fibers in automotive industry technical textiles and composite applications. For instance, many different designed products such as garments, clothing, shawls, curtains, furnitures, carpets, mats, hats, coasters, pillows, packaging materials, handicraft products, decoration materials, decorative lamps and lampshades, flower-wreath ornaments, multipurpose baskets, tabletop accessories, sports equipments, ropes, fishing nets, bags, papers, money papers, cigarette filter papers, wrapping papers, tea bags, cardboards, chipboards, liquid filtration filters, and various industrial textile materials such as medical articles and composites for different purposes can be made from abaca fibers. ![]() In the recent years, natural sustainable textile fibers have been preferred not only in apparel sector but also in technical textile applications such as composite material designs and products. Also, the use of abaca fibers as paper is quite common. In many years, abaca fibers have been used for ship navy, rope, fishing net, etc. Abaca fibers display a wide range of different designed applications owing to their promising properties. ![]() The abaca plant endemic in Asia is usually grown in the Philippines, Ecuador, Borneo, and Sumatra. Indeed, abaca fibers are biodegradable and renewable natural fibers and are listed among the sustainable textile resources. In the recent years, abaca fiber which is a renewable, biodegradable, sustainable, eco-friendly, and natural fiber alternative for the textile designs comes into prominence with their ecological properties and superior daily usage performance. The textile industry is now turning its face to biodegradable and environmentally friendly textile resources for their designs to leave a livable world for future generations. Therefore, sustainable textile designs made from renewable biodegradable, sustainable, and natural fiber alternatives has become a recent trend. Nowadays, interest in sustainable and renewable-origin textile fiber usage on textile design and fashion is increasing with the increasing environmental problem.
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