TOP 1%

5. Conclusion: End use for integrating textiles for market-leading focus In the another previous research based on a hypotheses of that textile business

irrespective to the employment status for stores, factory stores, vintage shops, thrift stores, e-commerce sales, online resales tend to show a statistic correlation between consumers who either prefer to select the conscious of recycled material applied in the products or may or have high preference to the products in the apparel especially wears for workplace, performance, and those factors inside of region market. Because resources applied in the study have shown product evaluations for Chinese, Canadian consumers have different preference in the evaluative roles in different aspects of fit, style, prices, quality/workmanship, comfort, material/fabric, color, durability,

Next-Generation Textiles

wardrobe coordination, ease of care, and brand name [9]. Also, the circular economy of potential future development of textiles is in either yarn or tread mill, dyeing plants, woven plants, post-treatment plants, no matter using their production capacity in the recycling of their industry waste. It also means enterprise including processing focused, or process to trade focused plants, and even the end of user market regulators to bring together multivariate variables in the modulation of textile and fashion industry, just for instance as in the prementioned research by (Figure 5) Watson et al.

and Paul et al. [4, 20].

Our focus would be questioning on if next-generation textiles still stay on

production—consumption-recyclable to industry circular economy system, the over- all progress in the Open Design (OD) that should put secondary usage over excessive products in front of the purchasing directed garment wearing. Large consumption in recycled polyester materials in textile for both wearing and home decoration market has already built a common view on increasing the sustainable levels from traditional back-into rampant consumerism into the conservative consumerism added with the technology rebuilding over the value system. Circle for that constitutes both a detail- focused micro-manufacturing of small collection of accessories for fashion industry or an across-continent manufacturing of shirts that uses a labor-educated program in southeast Asia which projects material recovery, experimental scalable, customized program that has a proactive, system-based approaches to lower the garment impact by using a reduced processing emission from raw materials to the subsequent

processing pollution management. Because the implementation of technology alone is not the eventual outcome and direction, it is better to use social education sectors for consumers to change their reliance on materials made of a cost-sensitive raw yarns, or

Figure 4.

The spacer structure and the lumped element model of a capacitor of three partial capacitances in the two parallel conductive boards, in which woven materials have a geometrical model, calculated based on the area of the plates, and the permittivity of free space in between the plates [31].

sustainability-directed consumption. They also define the circular economy as the input of the shorter but more responsive grip in from designer, textile mills to the end- user [4, 18]. Post-processing batches of reusable yarns, treads, woven clothes, cellu- lose materials, post-treatment accessories, or parts of the needs are directed turning to the aggregation dispersed to solve fundamental needs in front but followed by the creation and multipurpose wearables for device-connecting purpose.

Author details

Wei Tiancheng Wei¹*, Yu Sun²and Eunkyoung Shim³ 1 Texafire Canada, Kingfa Science and Technology, USA

2 Mechanical, Automotive and Materials Engineering, University of Windsor, USA 3 Textile Engineering, Chemistry and Science, North Carolina State University, USA

*Address all correspondence to: wwei7@ncsu.edu

© 2022 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Figure 5.

Application and export of polymeric resins in its packaging forms and the industrial upgrade of form integration from packaging to the pelletizing forms where there are multiple export product application forms in the subsequent procedures.

Next-Generation Textiles

References

[1]Woolridge AC, Ward GD, Phillips PS, Collins M, Gandy S. Life cycle

assessment for reuse/recycling of donated waste textiles compared to use of virgin material: An UK energy saving perspective. Resources, Conservation and Recycling. 2006;46(1):94-103 [2]Wang Q, Tang H, Ma Q, Mu R, Yuan X, Hong J, et al. Life cycle assessment and the willingness to pay of waste polyester recycling. Journal of Cleaner Production. 2019;234:275-284

[3]Karim MRB, Tahir D, Haq EU, Hussain A, Malik MS. Natural fibres as promising environmental-friendly reinforcements for polymer composites.

Polymers and Polymer Composites.

2021;29(4):277-300

[4]Smith P, Baille J, McHattie L-S.

Sustainable design futures: An open design vision for circular economy in fashion and textiles. The Design For Next Journal. 2017;20(1):1938-1947 [5]TMRGL. Recycled Polyester Textiles Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forcast, 2019–2027. Transparency Market Research; 2018

[6]Amanda F, Maddy S, Tom C.

E-textiles in clinical rehabilitation: A scoping review. Electronics. 2015;4:

173-203

[7]Ma S, We J, Jia Z, Yu T, Yuan W, Li Q, et al. Readily recyclable, high performance thermosetting materials based on a lignin-derived spiro diacetal trigger. Journals of Materials Chemistry A. 2019;7(3):1233-1243

[8]Li P, Ma S, Wang B, Xu X, Feng H, Yu Z, et al. Degradable benzyl cyclic acetal epoxy monomers with low viscosity:

Synthesis, structure-property

relationships, application in recyclable carbon fibers composite. Composites Science and Technology. 2022;219:

109243

[9]Rahman O, Fund B, Chen Z, Gao X. A cross-national study of apparel consumer preference and the role of product- evaluative cues. Journal of Marketing and Logistics. 2017;29:796-812

[10]Jun N, Minoru F, Yuichi M, Masahiko H. Life-cycle assessment of domesticand transboundary recycling of post-consumer PET bottles.

International Journal of Life Cycle Assessment. 2010;15:590-597

[11]Zhang Z, Wang JN, Shao AH, Xiong DG, Liu JW, et al. Recyclable cobalt- molybdenum bimetallic carbide modified separator boosts the polysulfide adsorption-catalysis of lithium sulfur battery. Science China Materials. 2020;63:2443-2455

[12]Martinez-Laserna E, Gandiaga I, Sarasketa-Zabala E, Badeda J, Stroe D-I, Swierczynski M, et al. Battery second life: Hype, hope or reality? A critical review of the state of the art. Renewable and Sustainable Energy Reviews. 2018;

93:701-718

[13]Munuera J, Britnell L, Santoro C, Cuellar-Franca R, Casiraghi C. A review on sustainable production of graphene and related life cycle assessment. 2D Materials. 2022;9:12002-12048

[14]Deng Y, Li J, Li T, Gao X, Yuan C.

Life cycle assessment of lithium sulfure battery for electric vehicles. Journal of Power Sources. 2017;343:284-295 [15]Kim H, Miura Y, Macosko CW.

Graphene/polyurethane nanocomposites