A to Z of Sustainable Textiles

2022-11-07 18:27:25 By : Ms. Sherly Woo

We use cookies to enhance your experience. By continuing to browse this site you agree to our use of cookies. More info.

Since natural fibers like cotton are resource-intensive to manufacture, and petroleum-based fibers like nylon and polyester are not ecologically friendly, it’s time to start considering more sustainable options in the textile industry. Electrical Insulation Paper

A to Z of Sustainable Textiles

Image Credit: perfectlab/Shutterstock.com

Environmental issues in the textile industry originate during manufacturing and extend to the final product. For example, the textile sector consumes one-tenth of all industrial water to operate plants and clean goods.

According to the World Bank, textile dyeing is responsible for at least 20% of water pollution. Therefore, there is a dire need for more environmentally friendly, sustainable textiles.

Textiles created from eco-friendly resources, such as recycled materials and natural fibers, are considered sustainable.

Initially, sustainable textiles were primarily associated with natural fibers. However, natural fabrics do not come without environmental costs. For example, growing cotton takes a substantial amount of water and insecticides.

On the other hand, newer sustainable textiles are prepared using organic raw materials and according to strict sustainable production standards.

Mycelium is a network of fungal threads. This material is highly flexible and durable. In addition, mycelium-derived textile is fire-resistant, waterproof, and non-toxic. It can be manufactured to be as thin as paper for lampshades and dresses, or extremely thick for industrial applications.

Alginate is an organic textile derived from brown seaweed. It is a soft fiber frequently combined with other fibers to increase its durability. Although its production emits chemical pollutants, it is biodegradable and has antibacterial characteristics. Due to these properties, alginate is considered to be an ideal textile for wound dressing.

Creating Sustainable Textiles From Seaweed

Lyocell is a lightweight textile manufactured from wood pulp with several desirable qualities, such as being odorless, antibacterial, highly absorbent, and water-resistant. It is biodegradable, making it a more sustainable fabric. Lyocell textiles are ultra-comfortable and breathable and even softer than cotton.

Cupro is a fabric resembling silk that is manufactured from cotton linter. Cotton linters are the small cotton fibers that stick to the cottonseed and are typically not used because of their small size. Cupro’s production helps divert cotton waste from landfills.

Linen, woven from the flax plant, is a durable and lightweight textile. It is an ancient plant-based fabric that has been utilized since around 8000 BC. Although the production process is mechanically intensive and emits some emissions, the textile remains one of the most natural, environmentally friendly solutions.

Hemp is one of the oldest textiles used for clothing; it has been utilized for centuries owing to its all-season adaptability and ability to get softer with each wash. It requires extremely little care. However, the textile is only sustainable if hemp is produced naturally, without chemicals to hasten its growth.

Qmonos is synthetic spider silk manufactured from bioengineered microbes. The fiber is durable, flexible, lightweight, and four times stronger than steel. Although completely biodegradable and a sustainable textile, Qmonos is very expensive.

Researchers at the Delft University of Technology and the University of Rochester employed 3D printing to produce sustainable textiles from algae and bacterial cellulose. The combination of bacterial cellulose and microalgae produced a novel textile using bacterial cellulose’s strength and the algae’s photosynthetic quality.

The material is durable, biodegradable, and easy to manufacture on a large scale. As a result, it has potential applications in the medical, energy, and fashion industries.

MycoWorks, a biotech startup located in California, has developed eco-friendly, vegan leather from mushrooms. MycoWorks manufactures its patent-protected, vegan leather from modified mycelium cells.

As the mycelium cells develop into 3D structures and interconnect tightly, they produce Fine Mycelium, a strong textile with the durability, strength, and performance of conventional leather.

S.Café, a yarn produced from coffee grounds and developed by the Taiwanese textile business Singtex, has outstanding natural anti-odor properties, UV protection, and a short drying time.

The multipurpose coffee yarn can be utilized in a wide range of goods, from daily domestic items to outdoor and sports outfits.

Image Credit: cameilia/Shutterstock.com

Aquafil, a sustainable textile company, introduced Econyl as an alternative to nylon in 2011. Econyl is a nylon yarn manufactured from recycled fabric scraps, fishing nets, and industrial plastic.

Econyl recycles waste materials, diverting garbage and plastic that might otherwise pollute ocean environments. In addition, by renewing nylon, Econyl creates a fabric that is just as useful and adaptable as nylon while retaining its quality and usefulness.

Piatex, a naturally occurring non-woven material made from pineapple leaves by Ananas Anman, shows remarkable similarities to leather. It is a sturdy yet adaptable, breathable, soft, and flexible material that is excellent for various fashion goods since it can be printed, sewn, and cut easily.

Piatex is almost completely sustainable and environmentally friendly as it is created from pineapple leaf fibers, a leftover from the pineapple harvest. In addition, unlike conventional leather, the manufacturing of Piatex does not entail using hazardous chemicals or heavy metals in its production.

Sustainable textile developments have come a long way in recent years, and it is hoped that the use of non-biodegradable and petroleum-based materials will soon become a thing of the past, allowing the textile sector to reduce its harmful effects on the environment.

Balasubramanian, S., Yu, K., Meyer, A. S., Karana, E., & Aubin‐Tam, M. E. (2021). Bioprinting of Regenerative Photosynthetic Living Materials. Advanced Functional Materials, 31(31), 2011162. https://doi.org/10.1002/adfm.202011162

Gardikiotis, I., Cojocaru, F.-D., Mihai, C.-T., Balan, V., & Dodi, G. (2022). Borrowing the Features of Biopolymers for Emerging Wound Healing Dressings: A Review. Int. J. Molecular Sciences. https://doi.org/10.3390/ijms23158778

Pensupa, N., Leu, S. Y., Hu, Y., Du, C., Liu, H., Jing, H., ... & Lin, C. S. K. (2017). Recent Trends in Sustainable Textile Waste Recycling Methods: Current situation and future prospects. Chemistry and Chemical Technologies in Waste Valorization, 189-228. https://doi.org/10.1007/s41061-017-0165-0

Beall, K. (2022). See How These Brands Are Using ECONYL® Nylon to Design for a Better Future. [Online]. Design Milk. Available at: https://design-milk.com/see-how-these-brands-are-using-econyl-nylon-to-design-for-a-better-future/ (Accessed on 03 November 2022).

Daniel, T. (2022). Sustainable Fabric Guide for Earth-Conscious Fashion Designers. [Online]. FOMO Agency. Available at: https://www.fomoagency.com/sustainable-fabric-guide/ (Accessed on 02 November 2022).

Kant, R. (2012). Textile Dyeing Industry an Environmental Hazard. Scientific Research. Available at: http://dx.doi.org/10.4236/ns.2012.41004

Gamillo, E. (2021). This Mushroom-Based Leather Could Be the Next Sustainable Fashion Material. [Online]. Smithsonian Magazine. Available at: https://www.smithsonianmag.com/smart-news/this-mushroom-based-leather-could-be-the-next-sustainable-fashion-material-180979170/ (Accessed on 03 November 2022).

Kleiderly. (2022). Sustainable Fabric Series: All about Mycelium Fabric. [Online]. Available at: https://www.kleiderly.com/our-blog/sustainable-fabric-series-all-about-mycelium-fabric (Accessed on 02 November 2022).

Rozas, A-C. (2017). Sustainable Textile Innovations: Coffee Ground Fiber. [Online]. Available at: https://fashionunited.uk/news/fashion/sustainable-textile-innovations-coffee-ground-fibre/2017061624856 (Accessed on 02 November 2022).

Textile World. (2021). MycoWorks Secures Strategic Investment From GM Ventures To Develop Fine Mycelium Materials For Sustainable Automotive Interiors. [Online]. Textile World. Available at: https://www.textileworld.com/textile-world/2022/10/mycoworks-secures-strategic-investment-from-gm-ventures-to-develop-fine-mycelium-materials-for-sustainable-automotive-interiors/ (Accessed on 03 November 2022).

UKFT. (2022). Ananas Anam: Innovative Plant-Based Piñatex made from Pineapple Leaves. [Online]. UK Fashion and Textile Association. Available at:  https://www.ukft.org/ananas-anam-pvjuly22/ (Accessed on 03 November 2022).

University of Rochester. (2021). Will your Future Clothes be made of Algae? ScienceDaily. Available at: www.sciencedaily.com/releases/2021/05/210503104821.htm (Accessed on 04 November 2022).

Disclaimer: The views expressed here are those of the author expressed in their private capacity and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork the owner and operator of this website. This disclaimer forms part of the Terms and conditions of use of this website.

NEBOSH certified Mechanical Engineer with 3 years of experience as a technical writer and editor. Owais is interested in occupational health and safety, computer hardware, industrial and mobile robotics. During his academic career, Owais worked on several research projects regarding mobile robots, notably the Autonomous Fire Fighting Mobile Robot. The designed mobile robot could navigate, detect and extinguish fire autonomously. Arduino Uno was used as the microcontroller to control the flame sensors' input and output of the flame extinguisher. Apart from his professional life, Owais is an avid book reader and a huge computer technology enthusiast and likes to keep himself updated regarding developments in the computer industry.

Please use one of the following formats to cite this article in your essay, paper or report:

Ali, Owais. (2022, November 04). A to Z of Sustainable Textiles. AZoM. Retrieved on November 07, 2022 from https://www.azom.com/article.aspx?ArticleID=22150.

Ali, Owais. "A to Z of Sustainable Textiles". AZoM. 07 November 2022. <https://www.azom.com/article.aspx?ArticleID=22150>.

Ali, Owais. "A to Z of Sustainable Textiles". AZoM. https://www.azom.com/article.aspx?ArticleID=22150. (accessed November 07, 2022).

Ali, Owais. 2022. A to Z of Sustainable Textiles. AZoM, viewed 07 November 2022, https://www.azom.com/article.aspx?ArticleID=22150.

Do you have a review, update or anything you would like to add to this article?

AZoM speaks with Seokheun “Sean” Choi, a Professor in the Department of Electrical & Computer Engineering at the State University of New York. His new research details the production of a prototype circuit board printed on a sheet of paper.

Dr. Anne Meyer / Dr. Alyson Santoro

In our latest interview, AZoM spoke with Dr. Anne Meyer and Dr. Alyson Santoro who are currently collaborating as part of Nereid Biomaterials. This group is creating a new biopolymer that can be broken down by bioplastic-degrading microbes in marine environments, bringing us closer to reducing the i

This interview discusses how ELTRA, as part of Verder Scientific, produces elemental analyzers for the battery component space.

The BitUVisc is a unique model of viscometer, that can manage highly viscous samples. It is designed to keep the samples warm throughout the entire process.

Discover the FieldLab analyzer, a new, battery-powered, portable oil lab by Spectro Scientific that allows for rapid oil testing in the field.

The BeVision D2 is a dynamic image analyzer that is the perfect choice for the dynamic image analysis of dry powder and granules with its particle range of 30-10,000 microns and ability to analyze 24 different parameters.

This article provides an end-of-life assessment of lithium-ion batteries, focusing on the recycling of an ever-growing amount of spent Li-Ion batteries in order to work toward a sustainable and circular approach to battery use and reuse.

Corrosion is the degradation of an alloy caused by its exposure to the environment. Corrosion deterioration of metallic alloys exposed to the atmosphere or other adverse conditions is prevented using a variety of techniques.

Due to the ever-increasing demand for energy, the demand for nuclear fuel has also increased, which has further created a significant increase in the requirement for post-irradiation examination (PIE) techniques.

AZoM.com - An AZoNetwork Site

A to Z of Sustainable Textiles

Fabric That Cannot Be Cut Owned and operated by AZoNetwork, © 2000-2022