Identyfikatory
Warianty tytułu
Kompaktowy niedoprzęd dla poprawy jakości przędz rotorowych
Języki publikacji
Abstrakty
This article is concerned with the development of a compact system suitable for producing compact roving. The objective is to reduce twist and improve the performance of roving in the subsequent processes. Combed compact cotton yarn with a linear density of 9.84tex was spun from compact and conventional roving. In order to conclude that compactness had been formed in roving, two special tests, namely the minimum twist of cohesion and roving cohesion strength were determined. Yarns produced from conventional and compact roving were compared for their strength, evenness and hairiness. The results show that there was an improvement in the strength and hairiness of the compact yarns produced from compact roving when compared to conventional yarns.
Artykuł dotyczy opracowania kompaktowego systemu, który umożliwiłby wytworzenie kompaktowego niedoprzędu. Celem jest zmniejszenie skrętu i poprawienie przerabialności niedoprzędu w kolejnych etapach procesu. Kompaktowa przędza bawełniana czesankowa o masie liniowej 9,84 tex była przędziona z wykorzystaniem niedoprzędu kompaktowego i klasycznego. Uzyskane przędze badano określając ich wytrzymałość na rozciąganie, równomierność i włochatość. Wyniki wskazały na zwiększenie wytrzymałości na rozciąganie i polepszenie włochatości przędz wytworzonych z niedoprzędu kompaktowego.
Czasopismo
Rocznik
Strony
24--31
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
autor
- Nanjappa Polytechnic College, Karumathampatti, Coimbatore-641659, Tamil nadu, India
autor
- Department of Textile Technology, Kumaraguru College of Technology, Coimbatore-641409, Tamil nadu, India
autor
- Department of Textile Technology, Jaya College of Engineering, Thirunindravur, Chennai-6020241, Tamilnadu, India
Bibliografia
- 1. Hearle JWS and Merchant VB. Relations between Specific Volume, Count and Twist of Spun Nylon Yarns. Textile Research Journal 1963; 33(6):417-424.
- 2. Grosberg P and Smith PA. The Strength of Slivers of Relatively Low Twist. Journal of the Textile Institute Transactions 1966; 57(1):T15-T23.
- 3. Akshay Kumar, Ishtiaque SM and Salhotra KR. Impact of different stages of spinning process on fibre orientation and properties of ring, rotor and air-jet yarns: Part 1 – Measurements of fibre orientation parameters and effect of preparatory processes on fibre orientation and properties. Indian Journal of Fibre and Textile Research 2008; 33, 12:451-467.
- 4. Barella A and Sust A. Cohesion phenomena in rovings and yarns:-part IV-Cohesion of twisted rovings, its effect on yarn properties. Textile Research Journal 1965; 35:491-496.
- 5. Basu A and Chellamani KP. Influence of Fibre length and Denier on properties of Polyester ring and Air jet Spun Yarns. Indian Journal of Fibre and Textile Research 2000; 25, 9:163-168.
- 6. Jyoti Ranjan Dash, Ishtiaque SM, Alagirusamy R. Properties and Processibility of Compact Yarns. Indian Journal of fibre and Textile Research 2002; 27, 12: 362-368.
- 7. Cheng KPS and Yu C. A Study of Compact Spun Yarns. Textile Research Journal, 2003; 4: 345-349.
- 8. Nikolic M, Stjepanovic Z, Lesjak F and Stritof A. Compact Spinning for Improved Quality of Ring Spun Yarns. Fibres and Textiles in Eastern Europe 2003; 11, 4(43):30-35.
- 9. Mohamed A M, Sayed EL and Suzan Sanad H. The Impact of New Spinning Technologies on the Egyptian Cottons. Autex Research Journa, 2007;December, 8(4).
- 10. SevdaAltas, Huseyin Kadoglu, Comparison of Conventional Ring, Mechanical and Pneumatic Compact Yarn Spinning Systems. Journal of Engineered Fibres and Fibres and Fabrics 2012; 7(1).
- 11. Ganesan S, Venkatachalam A and Subramaniam V, Fibre Migration in Compact Spun Yarns: Part2 - Mechanical Compact Yarns. Indian Journal of Fibre and Textile Research 2007; June, 32:163- 168.
- 12. Bojun Xu, Jian Ma, Radial Distribution of Fibres in Compact-Spun Flax - Cotton blended Yarns. Fibres and Textiles in Eastern Europe 2010; 18, 1(78): 24-27.
- 13. Tyagi GK, Manik Bhowmick, Bhattacharyya S and Kumar R. Effect of Spinning conditions on Mechanical and Performance characteristics of Ring and Compact Spun Yarns. Indian Journal of Fibre and Textile Research 2010; March, 35: 21-30.
- 14. Mageshkumar P and Ramachandran T. Optimisation of Process Parameters in Eli-Twist Yarn. International Journal of Engineering Inventions 2012; August, 1(1):24-31.
- 15. Mohammad Furqan Khurshid, Kashif Nadeem, Muhammad Asad, Muhammad Ashraf Chaudhary and Muhammad Amanullah. Comparative Analysis of Cotton Yarn Properties Spun on Pneumatic Compact Spinning Systems. Fibres and Textiles in Eastern Europe 2013; 21, 5(101): 30-34.
- 16. Alsaid Ahmed Almetwally, Mourad M M, Ali Heberish and Mohammed A Ramadan, Comparison between Physical Properties of Ring Spun Yarn and Compact Yarns Spun from different Pneumatic Compacting Systems. Indian Journal of Fibre and Textile Research 2015; March, 40: 43-50.
- 17. Ganesan S and Ramakrishnan G. Fibre migration in Compact Spun Yarns: Part1-Pneumatic Compact Yarn. Indian Journal of Fibre and Textile Research 2006; September, 31: 381-386.
- 18. Hussain U. Effect of Spinning Variables on Packing Density of Cotton Yarn. Indian Journal of Fibre and Textile Research 2014; December, 39: 434-436.
- 19. Gokarneshan N, Anbumani N and Subramaniam V. An investigation on the Minimum Twist of Cohesion of Ring and Compact Spun Yarns. Indian Journal of Fibre and Textile Research 2005; September, 30:340-343.
- 20. Musa Kilic, Befru Buyukbyraktar R, Gonca B kilic, Sehriban Aydin and Nazan Esk. Comparing the Packing Densities of Yarns Spun by Ring, Compact and Vortex Spinning Systems using Image Analysis Method. Indian Journal of Fibre and Textile Research 2014; December, 39: 351-357.
- 21. Carlene PW. The Relation between Fibre and Yarn Flexural Rigidity in Continuous Filament Viscose Rayons. Journal of the Textile Institute Transactions, 1950; 41(5):T159-T172.
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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