Please use this identifier to cite or link to this item: http://hdl.handle.net/11452/25332
Title: Effect of chenille yarns produced with selected comfort fibres on the abrasion and bending properties of knitted fabrics
Authors: Uludağ Üniversitesi/Mühendislik Fakültesi/Tekstil Mühendisliği Bölümü.
0000-0003-3283-4117
0000-0002-9919-564X
Kavuşturan, Yasemin
Ceven, Erhan Kenan
Özdemir, Özcan
A-7462-2018
AAG-4653-2019
24824357200
6504089018
8577587200
Keywords: Chenille yarn
Comfort fibres
Bamboo
Tencel
Abrasion resistance
Bending rigidity
Parameters
Behavior
Abrasion
Erosion
Knit fabrics
Rigidity
Wear resistance
Wool
Yarn
Abrasion tester
Bending behaviour
Bending properties
Chenille yarns
Comfort fbres
Experimental values
Piles
Issue Date: Jan-2010
Publisher: INST Chemical Fibres
Citation: Kavuşturan, Y. vd. (2010). "Effect of chenille yarns produced with selected comfort fibres on the abrasion and bending properties of knitted fabrics". Fibres and Textiles in Eastern Europe, 18(1), 48-53.
Abstract: In this study, the effects of pile and core yarn material types on the abrasion and bending behaviour of chenille knitted fabrics were studied. For this purpose different chenille yarns were produced from seven types of pile yarn material and two types of core yarn material at the same yarn counts. The different pile yarn fibre types used for the production of chenille yarns were comfort fibres like tencel, bamboo, modal, soybean, 50/50% soybean-tencel and conventional fibres like viscose and cotton; the different core yarn types were polyester and viscose. The abrasion resistance of knitted fabrics made from these yarns was measured with a Martindale Abrasion tester. According to the results of statistical analyses performed using the experimental values, physical properties like mass and thickness loss due to abrasion were affected. by the pile and core yarn types. Course way, wale way and fabric bending rigidity properties were not affected by the core yarn fibre types. The course way bending rigidity property was affected by the pile yarn fibre types, while the wale way and fabric bending rigidity properties were affected by the pile yarn fibre types for undyed yarns.
URI: http://hdl.handle.net/11452/25332
ISSN: 1230-3666
Appears in Collections:Scopus
Web of Science

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