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Published
2024-12-31
Issue
Vol. 5 No. 1 (2024): 4th International Conference on Design, Research and Development (RDCONF 2024)
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Articles
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Copyright (c) 2024 Orclever Proceedings of Research and Development
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
How to Cite
Development of Knitwear Containing Alpaca Fiber with High Added Value as an Alternative to Wool Knitwear
Rıza Atav
Tekirdağ Namık Kemal University
https://orcid.org/0000-0002-5807-4542
Seda Keskin
Eren Retail Company
https://orcid.org/0000-0002-9381-4278
Yıldıray Fatih Dilsiz
Eren Retail Company
https://orcid.org/0009-0002-8864-0733
Sümeyra Demirtaş Özkaya
Eren Retail Company
https://orcid.org/0000-0002-4332-035X
DOI: https://doi.org/10.56038/oprd.v5i1.619
Keywords: Alpaca, wool, knitwear, fabric
Abstract
In recent years, fashion trends have been changing very rapidly and in order to maintain competitive power in the market, it is of great importance to be able to respond quickly to the changing demands of customers. At this point, the survival chances of companies that can offer innovative products to the market are increasing. One of the ways that can be used in developing innovative products is to use different fibers. Mixing different fibers is a very common practice in the spinning industry. Blending is done to improve the properties of the resulting fiber mixture. In cases where fibers of a single species are not optimally suitable for certain areas of use, blending with a second fiber type can provide the necessary properties. In addition, the product obtained with the superior properties of the fibers added to the mixture can also have unique properties. For this reason, the number of products made from blended yarns is constantly increasing.
Within the scope of this study, the potential use of alpaca fibers in knitwear production was studied. The fibers obtained from alpaca (Lama pacos), which belongs to the Lama family, are called "alpaca". The most important feature of alpaca is its silky, soft touch. Other features that make alpaca valuable include its brightness, durability, warm-keeping property, drapability, taking dye very well and not tending to pilling. These fibers are found in specific regions covering a very narrow area in the world and are produced in very small quantities. All these factors cause the products made from these fibers to be expensive and therefore these fibers are described as “Luxury Fibers”. In the study, 2 different content yarns were used, namely 100% Wool and 70% Wool / 30% Alpaca from Nm 15 yarn. The yarns were tested for bursting strength, elongation at break, yarn irregularity, thin places, thick places and neps. Then, knitted fabrics were produced from the yarns in question. The color yield and CIEL*a*b* values of the dyed fabrics were measured and the fastness, handle and comfort properties of the fabrics were compared. As it is known, there are already quite comprehensive studies in the literature on both the fiber properties of alpaca fibers and the properties of the yarns produced from them. However, it can be said that there is still a gap in the literature regarding the production of blended fabrics containing alpaca fiber and the determination of their performance properties. In order for any fiber to be used in the textile sector and especially in the clothing sector, comprehensive studies must be conducted on that fiber. From this perspective, it can be said that this study, which examines alpaca fibers starting from the yarn stage and then their properties in fabric form in comparison with 100% wool, is innovative and original. When the literature and also the commercial products are examined, the fact that there is no product concept using alpaca fiber in this way in knitwears, which is the main production area of our company, makes this study important and innovative for the company. On the other hand, the R&D vision and brand power mission in the study, the contribution to the use of alpaca blended fabrics, the increase in awareness of different raw material alternatives and the development of alternative fabrics to conventional knitwear make the study innovative and original in the international sense.
References
Atav R. (2010). Alpaka lifleri. Tekstil Teknolojileri Elektronik Dergisi, 4(1), 65-72.
Wang H, Liu X, Wang X. (2005). Internal structure and pigment granules in colored alpaca fibers. Fibers Polymers, 6(3), 263-268. DOI: https://doi.org/10.1007/BF02875652
Atav R., Turkmen F. (2015). Investigation of the dyeing characteristics of alpaca fibers (huacaya and suri) in comparison with wool. Textile Research Journal, 85(13), 1331-1339. DOI: https://doi.org/10.1177/0040517514563727
ISO 2060 Determination of linear density (mass per unit length) by the skein method. 1999.
ISO 2061 Determination of twist in yarns - Direct counting method. 2015.
ISO 2062 Determination of single-end breaking force and elongation at break using constant rate of extension (CRE) tester. 2010.
ISO 105-C06 Textiles test for colour fastness. Part C06: Color fastness to domestic and commercial laundering. 2010.
ISO 105-X12 Textiles tests for color fastness. Part X12: Color fastness to rubbing. 2016.
ISO 105-E01 Textiles-Tests for color fastness, Part E01: Color fastness to water. 2013.
ISO 105-E04 Textiles-Tests for color fastness, Part E04: Color fastness to perspiration. 2013.
TS EN 12127 Textiles- Fabrics- Determination of mass per unit area using small samples.1999.
TS 250 EN 1049-2 Textiles-Woven Fabrics-Construction-Methods of Analysis-Part 2 Determination of Number of Threads Per Unit Length. 1996.
ISO 13938-2 Textiles - Bursting properties of fabrics - Part 2: Pneumatic method for determination of bursting strength and bursting distension. 2019.
TS EN ISO 12945-2 Textiles - Determination of fabric propensity to surface pilling, fuzzing or matting - Part 2: Modified Martindale method 2021.
TS EN ISO 12947-2 Textiles- Determination of abrasion resistance of fabrics by the Martindale method- Part 2: Determination of specimen breakdown 2017.
TS 391 EN ISO 9237 Textiles-Determination of permeability of fabrics to air 1999.
TS EN ISO 11092 Textiles - Physiological effects - Measurement of thermal and water-vapour resistance under steady-state conditions (sweating guarded-hotplate test) 2014.
Stanković SB, Novaković M, Popović DM, Poparić GB, Bizjak M. (2019). Novel engineering approach to optimization of thermal comfort properties of hemp containing textiles. The Journal of The Textile Institute, 110(9): 1271-1279. DOI: https://doi.org/10.1080/00405000.2018.1557367
Marmaralı A, Kretzschmar DS, Özdil N, Oğlakcıoğlu GN. (2006). Giysilerde termal konforu etkileyen parametreler. Tekst.ve Konf., 16(4): 241-246.
Gurkan Unal P., Atav R., Ilarslan S., Berkhan Kastacı B. (2019). The effect of using alpaca and silk instead of wool in weft yarns on the woollen fabric properties. Journal of Natural Fibers, 16(7), 1043-1054. DOI: https://doi.org/10.1080/15440478.2018.1448319
