Impregnation of Microencapsulated Aroma Oil on Ramie Blended Terry Textile and its Bending Rigidity

Petrulyte, S.; Plascinskiene, D.; Petrulis, D.

doi:10.5604/01.3001.0010.2842

Artykuł - szczegóły

Tytuł artykułu

Impregnation of Microencapsulated Aroma Oil on Ramie Blended Terry Textile and its Bending Rigidity

Autorzy

Petrulyte S. , Plascinskiene D. , Petrulis D.

Treść / Zawartość

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Identyfikatory

DOI

10.5604/01.3001.0010.2842

Warianty tytułu

Sztywność zginania wyrobów frotowych wykonanych z rami i impregnowanych mikrokapsułkami zawierającymi oleje aromatyczne

Języki publikacji

Abstrakty

An aroma agent containing eucalyptus essential oil was used for the development of a smart terry textile. The performance of terry woven fabric with microcapsules in relation to varied amounts of binder as well as the weft density of the fabric was evaluated. By SEM analysis it was confirmed that microcapsules really covered the terry textile. The bending rigidity and coefficient of anisotropy of samples modified with microcapsules and untreated ones were assessed. Due to additive components such as microcapsules and binder, the bending rigidity of terry fabric increased by even 5.1-12.8 times in the weft direction and by 5.3-14.0 times in the warp direction compared with grey ones. The research developed an analysis and empiric mathematical model suitable for predicting of binding rigidity as well as designing new terry fabrics with required binding properties.

W pracy poddano ocenie wyroby frotowe impregnowane mikrokapsułkami zawierającymi oleje aromatyczne w odniesieniu do różnych stężeń lepiszcza (20, 35, 50, 65, 80, and 95 g/dm³) oraz gęstości wątku. Za pomocą analizy SEM potwierdzono pokrycie wyrobu mikrokapsułkami. Porównano sztywność zginania i współczynnik anizotropii próbek niemodyfikowanych i impregnowanych mikrokapsułkami. Dzięki dodatkowym składnikom, takim jak mikrokapsułki i lepiszcze, sztywność zginania wyrobów frotowych wzrosła nawet 5,1-12,8 krotnie w kierunku wątku i 5,3-14,0 krotnie w kierunku osnowy w porównaniu z wyrobami niemodyfikowanymi.

Słowa kluczowe

aroma oil bending rigidity binder concentration microcapsules terry textile

olej aromatyczny sztywność zginania spoiwo stężenie mikrokapsułki tkaniny frotte

Wydawca

Sieć Badawcza Łukasiewicz - Łódzki Instytut Technologiczny

Czasopismo

Fibres & Textiles in Eastern Europe

Rocznik

2017

Tom

Vol. 25, no. 4 (124)

Strony

95--101

Opis fizyczny

Bibliogr. 35 poz., rys., tab.

Twórcy

autor

Petrulyte S.

salvinija.petrulyte@ktu.lt

Kaunas University of Technology, Faculty of Mechanical Engineering and Design, Department of Materials Engineering, Studentu St. 56, LT-51424 Kaunas, Lithuania

autor

Plascinskiene D.

deimante.plascinskiene@ktu.edu

Kaunas University of Technology, Faculty of Mechanical Engineering and Design, Department of Materials Engineering, Studentu St. 56, LT-51424 Kaunas, Lithuania

autor

Petrulis D.

donatas.petrulis@ktu.lt

Kaunas University of Technology, Faculty of Mechanical Engineering and Design, Department of Materials Engineering, Studentu St. 56, LT-51424 Kaunas, Lithuania

Bibliografia

1. Sanchez-Silva S, Gutierrez N, Sanchez A, Romero A, Valverde JL. Smart Microcapsules Containing Nonpolar Chemical Compounds and Carbon Nanofibers. Chemical Engineering Journal 2012; 181-182: 813-822.
2. Monllor P, Sancez L, Cases F, Bonet MA. Thermal Behavior of Microencapsulated Fragrances on Cotton Fabrics. Textile Research Journal 2009; 79: 291-384.
3. Nelson G. Application of Mocroencapsulation in Textiles. Chemical Industry & Chemical Engineering Quarterly 2002; 242: 55-62.
4. Di Credico B, Levi M, Turri S. An Efficient Method for the Output of New Self-Repairing Materials through a Reactive Isocyanate Encapsulation. European Polymer Journal 2013; 49: 2467-2476.
5. Marinkovic SS, Bezbradica D and Skundric P. Microencapsulation in the Textile Industry. Chemical Industry & Chemical Engineering Quarterly 2006; 12, 1: 58-62.
6. Singh MK, Varun VK and Behera BK. Cosmetotextiles: State of Art. Fibres & Textiles in Eastern Europe 2011; 19: 27-33.
7. Ganesan P, Ramachandran T, Karthik T, Kandha Vadivu P. Extraction of Copper Enriched Seeds for Healthcare Textiles. Indian Journal of Fibre & Textile Research 2013; 38: 313-316.
8. Kuhr M, Aibibu D, Cherif Ch. Improve the Barrier Effect of Barrier Textiles by Finishing with Microparticle. Proceedings of 13th AUTEX World Textile Conference, Dresden, Germany, 22-24 May 2013, pp.1-6.
9. Liu J, Liu C, Liu Y, Chen M, Hu Y, Yang Z. Study on The Grafting of Chitosan-Gelatin Microcapsules onto Cotton Fabrics and its Antibacterial Effect. Colloids and Surfaces B: Biointerfaces 2013; 109: 103-108.
10. Giraud S, Bourbigot S, Rochery M, Vroman I, Tighzert L, Delobel R, Poutch F. Flame Retarded Polyurea with Microencapsulated Ammonium Phosphate for Textile Coating. Polymer Degradation and Stability 2005; 88: 106-113.
11. Hebeish A, Founda MMG, Hamdy IA, EL-Sawy SM, Abdel-Mohdy FA. Preparation of Durable Insect Repellent Cotton Fabric: Limonene as Insecticide. Carbohydrate Polymers 2008; 74: 268-273.
12. Vankeviciute D, Petrulyte S, Petrulis D. Study on the Possibilities to Graft Microencapsulated Essential Oil on Natural Fibres and Terry Fabrics. Fibres & Textiles in Eastern Europe 2015; 23, 5(113): 48-54.
13. Azizi N, Chevalier Y and Majdoub M. Isosorbide-Based Microcapsules for CosmetoTextiles. Industrial Crops and Products 2014; 52: 150-157.
14. Rodrigus SN, Martins IM, Fernandes IP, Gomes PB, Mata VG, Barreiro MF, Rodrigues AE. Scentfation®: Microencapsulated Perfumes for Textile Application. Chemical Engineering Journal 2009; 149: 463-472.
15. Teixeira MA, Rodriguez O, Rodrigues S, Martins I, Rodrigues AE. A Case Study of Product Engineering: Performance of Microencapsulated Perfumes on Textile Applications. AICHE Journal 2012; 58: 1939-1950.
16. Teixeira CSN, Martins IMD, Mata VLG, Barreiro MFF, Rodrigues AE. Characterization and Evaluation of Commercial Fragrance Microcapsules for Textile Application. The Journal of Textile Institute 2012; 103: 269-282.
17. Sanchez P, Sanchez-Fernandez MV, Romero A, Rodriguez JF, Sanchez-Silva L. Development of Thermo-Regulating Textiles Using Paraffin Wax Microcapsules. Thermochimica Acta 2010; 498: 16-
18. Monllor P, Bonet MA, Cases F. Characterization of the Behaviour of Flavour Microcapsules in Cotton Fabrics. European Polymer Journal 2007; 43: 2481-2490.
19. Son K, Yoo DI, Shin Y. Fixation of Vitamin E Microcapsules on Dyed Cotton Fabrics. Chemical Engineering Journal 2014; 239: 284-289.
20. Lee AR and Yi E. Investigating Performance of Cotton and Lyocell Knit Treated with Microcapsules Containing Citrus unshiu oil. Fibres and Polymers 2013; 14: 2088-2096.
21. Fridrichova L. A New Method of Measuring the Bending Rigidity of Fabrics and its Application to the Determination of the Their Anisotropy. Textile Research Journal 2013; 83: 883-892.
22. Kim J and Cho G. Thermal Storage/Release, Durability, and Temperature Sensing Properties of Thermostatic Fabrics Treated with Octadecane-Containing Microcapsules. Textile Research Journal 2002; 72: 1093-101098.
23. Shin Y, Yoo D-Y, Son K. Development of Thermoregulating Textile Materials with Microencapsulated Phase Change Materials (PCM). IV. Performance Properties and Hand of Fabrics Treated with PCM Microcapsules. Journal of Applied Polymer Science 2005; 97: 910-915.
24. ISO 5084:1996. Textiles – Determination of Thickness of Textiles and Textile products.
25. EN 12127:1997. Textiles – Fabrics – Determination of Mass per Unit Area Using Small Samples.
26. GOST 10550-93:1995. Textiles. Cloth. Methods for Determination of Resistance to Bend. 1995; Moscow, Russia (in Russian).
27. Goetzendorf-Grabowska B, Karaszewska A, Vlasenko VI, Arabuli AT. Bending Stiffness of Knitted Fabrics – Comparison of Test Methods. Fibres & Textiles in Eastern Europe 2014; 22, 1(103): 43-50.
28. ISO 139: 2005 + AMD 1: 2011. Consolidated version. (2012). Textiles – Standard Atmospheres for Conditioning and Testing.
29. Biswas D, Chakrabarti SK, Saha SG, Chatterjee S. Durable Fragrance Finishing on Jute Blended Home-Textiles by Microencapsulated Aroma Oil. Fibres and Polymers 2015; 16: 1882-1889.
30. Salaün F, Devaux E, Bourbigot S, Rumeau P. Application of Contact Angle Measurement to the Manufacture of Textiles Containing Microcapsules. Textile Research Journal 2009; 79: 1202-1212.
31. Li L, Song L, Hua T, Au WM, Wong KS. Characteristics of Weaving Parameters in Microcapsule Fabrics and Their Influence on Loading Capability. Textile Research Journal 2013; 83: 113-121.
32. Aracil MAB, Bou-Belda E, Monllor P, Gisbert J. Binder Effectiveness of Microcapsules Applied onto Cotton Fabrics During Laundry. The Journal of The Textile Institute 2016; 107: 300-306.
33. Jaafar F, Lassoued MA, Sahnoun M, Sfar S, Cheikhrouhou M. Impregnation of Ethylcellulose Microcapsules Containing Jojoba Oil onto Compressive Knits Developed for High Burns. Fibres and Polymers 2012; 13: 346-351.
34. Khanna S and Kauz A. Study on Aroma Finish Using Vanillin on Cotton Based Home Textiles. Daffodil International University Journal of Science and Technology 2015; 10: 31-36.
35. Cheng SY, Yuen CWM, Kan CW, Cheuk KKL, Tang JCO. Systematic Characterization of Cosmetic Textiles. Textile Research Journal 2010; 80: 524-536.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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