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DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS

Yıl 2021, Cilt 16, Sayı 2, 48 - 56, 27.04.2021

Öz

Kaynakça

  • Singh, M.K., Varun, V.K., and Behera, B.K., (2011). Cosmetotextiles: state of art. Fibres and Textiles in Eastern Europe, 4(87):27-33.
  • Teixeira, C.S.N., Martins, I.M.D., Mata, V.L.G., Barrerio, M.F.F., and Rodrigues, A.E., (2012). Characterization and evaluation of commercial fragrance microcapsules for textile application. Journal of the Textile Institute, 103(3):269-282.
  • Alonso, C., Marti, M., Barba, C., Lis, M., Rubio, L., and Coderch, L., (2016). Skin penetration and antioxidant effect of cosmeto-textiles with gallic acid. Journal of Photochemistry & Photobiology B: Biology, 156(2016):50-55.
  • Mosca, M. and Rona, C., (2003). Effectiveness evaluation of a slimming and anti-cellulite garment, http://www.panmedic.com.my/texcell/publication/scientific-paper/Texenergy-for-slimming-and-anticellulite.pdf (Last Access: July 2020).
  • Tırnaksız, F., (2006). Cellulite and cosmetic applications. Anadolu Universitesi Journal of Science and Technology, 7(1):17-31.
  • Lupi, O., Semenovitch, I.J., Treu, C., Bottino, D., and Bouskela, E., (2007). Evaluation of the effects of caffeine in the microcirculation and edema on thighs and buttocks using the orthogonal polarization spectral imaging and clinical parameters. Journal of Cosmetic Dermatology, 6(2):102-107.
  • Cheng, S.Y., Yuen, C.W.M., Kan, C.W., and Cheuk, K.K.L., (2008). Development of cosmetic textiles using microencapsulation technology. Research Journal of Textile and Apparel, 12(8):41-51.
  • Surjushe, A., Vasani, R., and Saple, D.G., (2008). Aloe vera: a short review. Indian Journal of Dermatology, 53(4):163-166.
  • Velasco, M.V.R., Tano, C.T.N., Machado-Santelli, G.M., Consiglieri, V.O., Kaneko, T.M., and Bay, A.R., (2008). Effects of caffeine and siloxanetriol alginate caffeine, as anticellulite agents, on fatty tissue: histological evaluation. Journal of Cosmetic Dermatology, 7(1):23-29.
  • Türkoğlu, G.C., Sarıışık, A.M., Erkan, G., Kayalar, H., Kontart, O., and Öztuna, S., (2017). Determination of antioxidant capacity of capsule loaded textiles. Indian Journal of Fibre & Textile Research, 42(2):189-195.
  • Özçelik Kayseri, G., and Kırtay, E., (2011). Evaluation of fabric pilling tendency with different measurement methods. The Journal of Textiles and Engineers, 18(84):27-31.
  • Marmaralı, A., Özdil, N., Kretzschmar Dönmez, S., and Oğlakçıoğlu Gülsevin, N., (2006). Parameters that affect thermal comfort of garment. Textile and Apparel, 16(4):241-246.
  • Intertek, (2010). Intertek Hong Kong Extends Test Capability to Include Testing of Physiological Effects of Textiles Using a Sweating Guarded Hotplate, Sparkle, 472, http://www.intertek.com/uploadedFiles/Intertek/Divisions/Consumer_Goods/Media/PDFs/Sparkles/2010/sparkle472.pdf (Last Access: June 2020).
  • Oğlakçıoğlu, N. and Marmaralı, A., (2010). Effects of regenerated cellulose fibers on thermal comfort properties of compression stockings. The Journal of Textiles and Engineers, 17(77):6-12.
  • Siddiqui, M.O.R., Ali, M., Zubair, M., and Sun, D., (2018). Prediction of air permeability of knitted fabric by using computational method. Textile and Apparel, 28(4):273-279.
  • Busiliene, G., Lekeckas, K., and Urbelis, V., (2011). Pilling Resistance of Knitted Fabrics. Materials Science. 17(3):297-301.
  • El-Dessouki, H.A., (2014). A study on abrasion characteristics and pilling performance of socks. International Design Journal, 4(2):229-234.
  • Çeven, E.K., Eren, H.A., and Karakan Günaydın, G., (2019). Comparison of the selected physical properties of elastane weft knitted fabrics before and after repeated launderings. Uludağ University Journal of The Faculty of Engineering. 24(1):35-49.
  • Alonso, C., Marti, M., Martinez, V., Rubio L., Parra J.L., and Coderch, L., (2013). Antioxidant cosmeto-textiles: skin assessment. European Journal of Pharmaceutics and Biopharmaceutics, 84(1):192–199.

Determining The Appropriate Fabric Type for Use in The Production of Cosmetic Textiles By Performance Tests

Yıl 2021, Cilt 16, Sayı 2, 48 - 56, 27.04.2021

Öz

It was aimed to determine the appropriate fabric type for designing and developing cosmetic textiles with high comfort and cosmetic efficacy properties in this study. In this respect, 7 different types of knitted fabrics that are made of different raw materials, and have different fabric constructions and yarn numbers were planned to use in the production of cosmetic textile products. Firstly, trial productions of these fabrics were done and performance tests were carried out. After determination of the appropriate fabric type by performance tests, suggestions were given about proper end usage and final product according to the chosen fabric.

Kaynakça

  • Singh, M.K., Varun, V.K., and Behera, B.K., (2011). Cosmetotextiles: state of art. Fibres and Textiles in Eastern Europe, 4(87):27-33.
  • Teixeira, C.S.N., Martins, I.M.D., Mata, V.L.G., Barrerio, M.F.F., and Rodrigues, A.E., (2012). Characterization and evaluation of commercial fragrance microcapsules for textile application. Journal of the Textile Institute, 103(3):269-282.
  • Alonso, C., Marti, M., Barba, C., Lis, M., Rubio, L., and Coderch, L., (2016). Skin penetration and antioxidant effect of cosmeto-textiles with gallic acid. Journal of Photochemistry & Photobiology B: Biology, 156(2016):50-55.
  • Mosca, M. and Rona, C., (2003). Effectiveness evaluation of a slimming and anti-cellulite garment, http://www.panmedic.com.my/texcell/publication/scientific-paper/Texenergy-for-slimming-and-anticellulite.pdf (Last Access: July 2020).
  • Tırnaksız, F., (2006). Cellulite and cosmetic applications. Anadolu Universitesi Journal of Science and Technology, 7(1):17-31.
  • Lupi, O., Semenovitch, I.J., Treu, C., Bottino, D., and Bouskela, E., (2007). Evaluation of the effects of caffeine in the microcirculation and edema on thighs and buttocks using the orthogonal polarization spectral imaging and clinical parameters. Journal of Cosmetic Dermatology, 6(2):102-107.
  • Cheng, S.Y., Yuen, C.W.M., Kan, C.W., and Cheuk, K.K.L., (2008). Development of cosmetic textiles using microencapsulation technology. Research Journal of Textile and Apparel, 12(8):41-51.
  • Surjushe, A., Vasani, R., and Saple, D.G., (2008). Aloe vera: a short review. Indian Journal of Dermatology, 53(4):163-166.
  • Velasco, M.V.R., Tano, C.T.N., Machado-Santelli, G.M., Consiglieri, V.O., Kaneko, T.M., and Bay, A.R., (2008). Effects of caffeine and siloxanetriol alginate caffeine, as anticellulite agents, on fatty tissue: histological evaluation. Journal of Cosmetic Dermatology, 7(1):23-29.
  • Türkoğlu, G.C., Sarıışık, A.M., Erkan, G., Kayalar, H., Kontart, O., and Öztuna, S., (2017). Determination of antioxidant capacity of capsule loaded textiles. Indian Journal of Fibre & Textile Research, 42(2):189-195.
  • Özçelik Kayseri, G., and Kırtay, E., (2011). Evaluation of fabric pilling tendency with different measurement methods. The Journal of Textiles and Engineers, 18(84):27-31.
  • Marmaralı, A., Özdil, N., Kretzschmar Dönmez, S., and Oğlakçıoğlu Gülsevin, N., (2006). Parameters that affect thermal comfort of garment. Textile and Apparel, 16(4):241-246.
  • Intertek, (2010). Intertek Hong Kong Extends Test Capability to Include Testing of Physiological Effects of Textiles Using a Sweating Guarded Hotplate, Sparkle, 472, http://www.intertek.com/uploadedFiles/Intertek/Divisions/Consumer_Goods/Media/PDFs/Sparkles/2010/sparkle472.pdf (Last Access: June 2020).
  • Oğlakçıoğlu, N. and Marmaralı, A., (2010). Effects of regenerated cellulose fibers on thermal comfort properties of compression stockings. The Journal of Textiles and Engineers, 17(77):6-12.
  • Siddiqui, M.O.R., Ali, M., Zubair, M., and Sun, D., (2018). Prediction of air permeability of knitted fabric by using computational method. Textile and Apparel, 28(4):273-279.
  • Busiliene, G., Lekeckas, K., and Urbelis, V., (2011). Pilling Resistance of Knitted Fabrics. Materials Science. 17(3):297-301.
  • El-Dessouki, H.A., (2014). A study on abrasion characteristics and pilling performance of socks. International Design Journal, 4(2):229-234.
  • Çeven, E.K., Eren, H.A., and Karakan Günaydın, G., (2019). Comparison of the selected physical properties of elastane weft knitted fabrics before and after repeated launderings. Uludağ University Journal of The Faculty of Engineering. 24(1):35-49.
  • Alonso, C., Marti, M., Martinez, V., Rubio L., Parra J.L., and Coderch, L., (2013). Antioxidant cosmeto-textiles: skin assessment. European Journal of Pharmaceutics and Biopharmaceutics, 84(1):192–199.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Elif YILMAZ> (Sorumlu Yazar)
EGE ÜNİVERSİTESİ, EMEL AKIN MESLEK YÜKSEKOKULU
0000-0002-0433-0336
Türkiye


Ziynet ÖNDOĞAN>
EGE ÜNİVERSİTESİ
0000-0002-8597-2727
Türkiye

Destekleyen Kurum Bilim, Sanayi ve Teknoloji Bakanlığı
Proje Numarası SAN-TEZ Project No 1616.STZ.2012-2
Teşekkür This study was supported by SAN-TEZ Project No 1616.STZ.2012-2. Authors thanks to project partner “Sun Group R&D Department” for their contributions to our work.
Yayımlanma Tarihi 27 Nisan 2021
Yayınlandığı Sayı Yıl 2021, Cilt 16, Sayı 2

Kaynak Göster

Bibtex @araştırma makalesi { nwsaeng837816, journal = {Engineering Sciences}, eissn = {1308-7231}, address = {}, publisher = {E-Journal of New World Sciences Academy}, year = {2021}, volume = {16}, number = {2}, pages = {48 - 56}, title = {DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS}, key = {cite}, author = {Yılmaz, Elif and Öndoğan, Ziynet} }
APA Yılmaz, E. & Öndoğan, Z. (2021). DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS . Engineering Sciences , 16 (2) , 48-56 . Retrieved from https://dergipark.org.tr/tr/pub/nwsaeng/issue/62039/837816
MLA Yılmaz, E. , Öndoğan, Z. "DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS" . Engineering Sciences 16 (2021 ): 48-56 <https://dergipark.org.tr/tr/pub/nwsaeng/issue/62039/837816>
Chicago Yılmaz, E. , Öndoğan, Z. "DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS". Engineering Sciences 16 (2021 ): 48-56
RIS TY - JOUR T1 - DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS AU - Elif Yılmaz , Ziynet Öndoğan Y1 - 2021 PY - 2021 N1 - DO - T2 - Engineering Sciences JF - Journal JO - JOR SP - 48 EP - 56 VL - 16 IS - 2 SN - -1308-7231 M3 - UR - Y2 - 2021 ER -
EndNote %0 Engineering Sciences DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS %A Elif Yılmaz , Ziynet Öndoğan %T DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS %D 2021 %J Engineering Sciences %P -1308-7231 %V 16 %N 2 %R %U
ISNAD Yılmaz, Elif , Öndoğan, Ziynet . "DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS". Engineering Sciences 16 / 2 (Nisan 2021): 48-56 .
AMA Yılmaz E. , Öndoğan Z. DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS. Engineering Sciences. 2021; 16(2): 48-56.
Vancouver Yılmaz E. , Öndoğan Z. DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS. Engineering Sciences. 2021; 16(2): 48-56.
IEEE E. Yılmaz ve Z. Öndoğan , "DETERMINATION OF THE APPROPRIATE FABRIC TYPE FOR USE IN THE PRODUCTION OF COSMETIC TEXTILES BY PERFORMANCE TESTS", Engineering Sciences, c. 16, sayı. 2, ss. 48-56, Nis. 2021