Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties
Al-Ghazali, H., Al-Amoudi, H. (2018). Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties. EKB Journal Management System, 8(1), 271-281. doi: 10.21608/idj.2018.86313
Hayam Demerdash Al-Ghazali; Hanan Abdullah Abdul Rahman Al-Amoudi. "Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties". EKB Journal Management System, 8, 1, 2018, 271-281. doi: 10.21608/idj.2018.86313
Al-Ghazali, H., Al-Amoudi, H. (2018). 'Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties', EKB Journal Management System, 8(1), pp. 271-281. doi: 10.21608/idj.2018.86313
Al-Ghazali, H., Al-Amoudi, H. Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties. EKB Journal Management System, 2018; 8(1): 271-281. doi: 10.21608/idj.2018.86313

Effect of constructional parameters of three- dimensional honeycomb fabric on their physical and comfort properties

International Design Journal
Article 24, Volume 8, Issue 1 - Serial Number 25, January 2018, Page 271-281  XML PDF (508.06 K)
Document Type: Original Article
DOI: 10.21608/idj.2018.86313
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Authors
Hayam Demerdash Al-Ghazali1; Hanan Abdullah Abdul Rahman Al-Amoudi2
1Assistant Professor of clothing and textile , Faculty of Specific Education, Tanta University
2College of Art and Design, Department of Fashion Design, King Abdulaziz University
Abstract
Woven fabrics from honeycomb weaves is a fabric with a single layer which exhibits three dimensional cellular shape on both sides. This type of fabrics can be used as industrial filtration fabrics, medical textiles, blankets and small carpets. This study investigates three types of honeycomb fabrics differentiate in their yarn density and counts. The Analysis of variance (one way ANOVA) is used to detect the significance difference between the three types of fabrics. The physical, mechanical, thermal comfort and color properties of this type of fabrics were studied. The findings of this study revealed that warp and weft yarn counts are the key factors which dominate and control the properties of these fabrics. Fabrics woven from coarser yarns are superior to the other fabrics in relation to their mechanical and thermal comfort, namely, air permeability and thermal insulation index. Whereas the honeycomb fabrics woven from finer yarns exhibited higher color fastness to dry, wet rubbing and higher fastness to light.    
Keywords
Honeycomb weaves woven fabrics; fabric comfort; air permeability; thermal resistance; physical properties
References

1-   أحمد على سالمان ، أسماء الشعراوى : معجم المنسوجات الثقافى Culture Textile Dictionary .  مکتبة ناسى ، دمیاط 2016.

2-   الطنطاوی، سمیر أحمد ومحمد، رشاد  (2013): "تحسین خواص الأداء الوظیفی والجمالی لأقمشة المفروشات استخدام خیوط مزویة زخرفیة من الکتان والبولی اکریلک"، المؤتمر السنوی (العربی الثامن – الدولی الخامس) استشراف مستقبلال التعلیم فی مصر والوطن العربی رؤى و استراتیجیات ما بعد الربیع العربی، 10-11 ابریل، ص441-457.

3-   شهبة، عفاف و الصعیدی، هناء و رضوان جمال (2007): "تأثیر بعض الاسالیب التطبیقیة للنقشة العادیة على الخواص الطبیعیة والمیکانیکة لأقمشة المفروشات"، مجلة علوم وفنون، المجلد التاسع عشر، العدد الثالث، یولیو، ص 119-133.

4-   Alsaid Ahmed Almetwally, M. M. Mourad , Ali Ali Hebeish and Mohamed A. Ramadan. Comparison Between Physical Properties of Ring-Spun Yarn and Compact Yarns Spun from Different Pneumatic Compacting systems.  Indian Journal of Fibers and Textile Research, 40, March 2015, 43-50.

5-   Alsaid Ahmed Almetwally & M.M. Mourad . Effects of spandex drawing ratio and weave structure on the physical properties of cotton/ spandex woven fabrics. The Journal of The Textile Institute, Vol. 105, No. 3, 235–245, 2014.

6-   Alsaid Ahmed Almetwally, Hatim M.F. Idrees & Ali Ali Hebeish . Predicting the tensile properties of cotton/ spandex core-spun yarns using artificial neural network and linear regression models. The Journal of The Textile Institute, Vol. 105, No. 11, 1221–1229, 2014

7-   Alsaid  A. Almetwally and Mona. M. Salem. Comparison between Mechanical Properties of Fabrics Woven from Compact and Ring Spun Yarns .AUTEX Research Journal, 10 (1), March 2010.

8-   Cay, Ahmet, R. Atrav, and Kerim Duran. "Effects of warp-weft density variation and fabric porosity of the cotton fabrics on their colour in reactive dyeing." Fibres & Textiles in Eastern Europe 1 (60) (2007): 91-94.

9-   Droste, Reinhard. "Bullet-proof vest or the like." U.S. Patent No. 4,584,228. 22 Apr. 1986.

10-    Garbarino, Gwendolyn Mary. "Yoga towel." U.S. Patent No. 8,631,833. 21 Jan. 2014. https://www.google.com/patents/US8631833

11-    Jinlian HU(2004): "Structure and mechanics of woven fabric", Woodhead Publishing Ltd.

12-    Lord, P. R., & Mohamed, M. H. (1992). Weaving-conversion of yarn to fabric. Leeds: Merrow

13-    Theisen, Marc S. "Geotextile fabric woven in a waffle or - honeycomb weave pattern and having a cuspated profile after heating." U.S. Patent No. 5,616,399. 1 Apr. 1997.

1.        https://www.google.com/patents/US5616399

14-    Xiao, Xiao, et al. "Geometrical modeling of honeycomb woven fabric architecture." Textile Research Journal 85.16 (2015): 1651-1665.

15-    http://journals.sagepub.com/doi/abs/10.1177/00405175145487

 

16-    Xiao, et al. "Transfer and mechanical behavior of three-dimensional honeycomb fabric", Textile Research Journal 85.12 (2015): 1281-1292.

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