Structural Performance of DRF And Conventional Yarns
Journal: International Journal of Scientific & Technology Research (Vol.1, No. 8)Publication Date: 2012-09-25
Authors : Lokesh Shukla; Anita Nishkam;
Page : 152-158
Keywords : KEY WORDS DRF Yarn; Configuration of Wool Fiber; Straight Hooked Trailing; Hooked Leading; Hooked Both; Looped and Entangled; Mean Fiber Extent and Spinning-in-Coefficient .;
Abstract
Abstract- Constituent Wool Fibers Structure in DRF and Conventional yarns were elicited in Co-relation to Processing Parameters Wool Fiber Length Twist Multiplier and Strand Spacing by using Box and Behnkens Design. The Straight fiber increases as strand spacing increases at 65 and 70 mm fiber length and decreases at 75 mm fiber length. In all strands spacing Straight fiber increases up to 70 mm fiber length than decreases in further increase in fiber length and Spinning-in-Coefficient is increases as fiber length increases. In all 3 levels of fiber length Spinning-in-Coefficient increases up to 14 mm strand spacing than decreases in further increase. The straight Fiber Mean Fiber Extent and Spinning-in-Coefficient of Wool Fiber at optimum levels of variables DRF yarns are improved in comparison to Conventional yarns. The role of TM is not visible. In DRF yarns straight fiber was 71 to 61 mean fibers extent was 44.10 to 53.90 spinning in coefficient was 64.75 to 74.90 trailing hooks was 9 to 15 leading hooks was 0 to 10 both leading and trialing hooked was 0 to 5 looped was 1 to 4 and entangled was 0 to 4 respectively.
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