SUSTAINABLE TEXTILES: THE ROLE OF BAMBOO AND A COMPARISON OF BAMBOO TEXTILE PROPERTIES-PART 1
Abstract
This paper delves into a subset of engineering for sustainable development—the engineering of sustainable textiles using bamboo. In particular, the document explores various questions relating to the subject, including: (1) what constitute sustainable textiles and (2) what role bamboo textiles can play in sustainable development. The experiments performed attempt to answer two main questions: (1) what are the differences in textile properties between chemically-manufactured and mechanically-manufactured bamboo textiles? and (2) what are the differences in textile properties between two different species of bamboo (Phyllostachys edulis and Bambusa emeiensis)? We can look at the textile industry through the lens of the triple bottom line of sustainability. At present, the industry has a poor track record for social and environmental concerns. The two most commonly used textile fibres—cotton and polyester—both cause serious environmental problems in their life cycle. This dissertation focuses on one small aspect of the entire field of sustainable textiles—materials made from bio-based renewable resources in the form of bamboo species. The advantages of bamboo as a raw material include its fast renewability, its biodegradability, its efficient space consumption, its low water use, and its organic status. The advantages of bamboo fabric are its very soft feel (chemically-manufactured) or ramie-like feel (mechanically-manufactured), its antimicrobial properties, its moisture wicking capabilities and its anti-static nature. The main constraints of bamboo textiles are current costs and are those inherent in the textile industry: energy, water, and chemical requirements that are involved in manufacturing. The textile properties examined relate to sustainability: wear and tear (and therefore durability) and moisture wicking (and therefore the need for machine washing and drying). The following are measured for fibre, yarn, and fabric: tear force, breaking force, breaking tenacity, moisture absorption and speed of drying, and surface morphology.Downloads
Published
Issue
Section
License
By submitting a manuscript, the authors agree that the copyright of all materials published in Journal of Textile and Apparel Technology and Management (JTATM) is transferred to the publisher if and when their manuscript is accepted for publication. Please note the following details as an understanding for submitting a manuscript to JTATM for publication.
Authors grant rights to JTATM to disseminate the paper and its contents as a file on the Internet when the paper is accepted. JTATM owns an exclusive right for the paper until it is either rejected or published. The authors cannot submit the same paper in part or in its entirety to another journal during the review.
Authors retain rights to be identified as the authors when the paper is published, and the patent right or rights relating to products or processes described in the paper. The authors retain rights to the educational and research uses of the paper, such as teaching and exchange of the published or pre-publication version of the paper with colleagues, for non-commercial purposes. The authors may obtain permission from the journal for a non-exclusive use of the contents in the paper, such as tables, figures and texts, with a proper acknowledgement to the journal.
Authors must warrant the originality of the paper in that the contents of the paper in part or in full have not been published or submitted elsewhere while the paper is under review.
Effective date for the above policies is December 1, 2010. The authors of the papers published before this date will be contacted via email for copyright transfer agreements.