Influence of Kind of Weft Yarn on Properties of the Seersucker Woven Fabrics

• Autorzy: Matusiak M. , Frącczak Ł.

Identyfikatory

DOI

https://doi.org/10.1515/aut-2016-0021

• Języki publikacji: EN

Abstrakty

EN

Seersucker woven fabrics create a unique 3D woven structure. Such 3D structure is usually received on loom by an application of two warps of different tension. However, a kind of the weft yarn also significantly influences the structure and properties of the seersucker woven fabric. The paper presents an investigation of the seersucker fabrics made of the same set of warps and different weft yarns. The mechanical properties of the investigated fabrics were measured by means of the standardized testing methods. The structure of the fabric was assessed using the 3D laser scanning.

Słowa kluczowe

EN

seersucker woven fabrics; breaking force; bending stiffness; total height of profile; laser scanning; seersucker effect

PL

tkaniny gofrowane; siła zrywająca; sztywność zginania; skanowanie laserowe; efekt kory

• Wydawca: Lodz University of Technology, Faculty of Material Technologies and Textile Design
• Czasopismo: Autex Research Journal
• Rocznik: 2016
• Tom: Vol. 16, no. 4
• Strony: 214--221
• Opis fizyczny: Bibliogr. 12 poz.

Twórcy

autor

Matusiak M.

• Institute of Architecture of Textiles, Lodz University of Technology

autor

Frącczak Ł.

• Faculty of Mechanical Engineering, Institute of Machine Tools and Production Engineering, Lodz University of Technology, Lodz, Poland

Bibliografia

• [1] Matusiak M., Frączak Ł. (2015). Investigation of Waviness of 3D Woven Fabrics. In: Innovations in Clothing Design, Materials, Technology and Measurement Methods, ed. By I. Frydrych, G. Bartkowiak, M. Pawłowa, Lodz University of Technology, ISBN 978-83-7283-666-3, 166-182
• [2] Gandhi K. (2012). Woven Textiles Principles, Technologies and Applications, 1st ed., Woodhead Publishing, New Delhi, 142-158
• [3] The American Heritage Dictionary of the English Language: Fifth Edition (2015). Available from: <https://ahdictionary.com > 02.03.2016
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• [5] Maqsood M., Nawab Y., Javaid M.U., Shaker K., Umair M. (2014). Development of seersucker fabrics using single warp beam and modelling of their stretch-recovery behavior, The Journal of The Textile Institute, DOI 10.1081/00405000.2014.977542
• [6] Matusiak M., Sikorski K., Wilk E. (2012). New Applications of Cotton Fibres, Fiber Society Spring Conference, St Gallen
• [7] Ashraf W., Nawab Y., Maqsood M., Khan H., Awais H., Ahmad S., Ashraf M., Ahmad S. (2015). Development of Seersucker Knitted Fabric for Better Comfort Properties and Aesthetic Appearance, Fibers and Polymers, 16(3), 699-701
• [8] Willard D. (2011). The Fabric Selector, 1st ed., Search Press Ltd, 42-78
• [9] Ghahraman F.G., Tavanai H., Hosseini S.A. (2010). A qualitative assessment of seersucker effect through spectral density and angular power spectrum function algorithms, The Journal of The Textile Institute, 101(3), 276–281
• [10] Matusiak M., Frącczak Ł. (2016). Development of Functional 3D Woven Fabrics for Therapeutic Applications, Proceedings of The 90th Textile Institute World Conference, Poznan 2016
• [11] Militký J., Mazal M. (2007). Image analysis method of surface roughness evaluation, International Journal of Clothing Science and Technology, 19, 186-193
• [12] Calvimontes A., Badrul Hasan M.M., Dutschk V. (2010). Effects of Topographic Structure on Wettability of Woven Fabrics. In: Woven Fabric Engineering, ed. by Dobnik Dubrovski P., ISBN 978-953-307-194-7, Publisher: Sciyo, 18, 71-92

Uwagi

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