Industrial cotton waste: Recycling, Reclaimed fiber behavior and quality prediction of its blend
This paper aims to explore the use of industrial cotton waste as an
alternative of virgin cotton and to understand the effects of recycling process
in the global quality of reclaimed fiber. It also tries to predict the quality
of the mix of recycled fiber with virgin cotton using mathematical approach.The
global quality of recycled fibers was investigated using single criteria like
Mean Length (ML), Span Length (SL2.5)… and with complex criteria
such as Fiber Quality Index (FQI) and Spinning
Consistency Index
(SCI). The blending fibers properties were simulated mathematically. The ML, SL2.5,
Upper Half Mean Length (UHML), Upper Quality Length (UQL), Fineness and
Uniformity Ratio (UR) were analyzed according to the simulation results which
were reported by experimental analysis using R² as correlation coefficient. The
optimum quality of reclaimed fiberswasselected with the consideration of FQI
and SCI plots.
The blend of recycled
fibers with Malian fibers was selected as the beneficial mix. Under the optimum
recycling condition, the effect of recycled fibers (40%, 50%, 60% and 75%) on
the irregularity and the tenacity of blended yarn were evaluated. It was shown that the CVm %, Thinness 30%/Km, Thickness
30%/km, Neps 280%/m andHairiness % of obtained yarn increase by 20%, 13%, 32%,
50% and 20%, respectively, when the ratio of recycled fibers increase from 40%
to 75%. While the tenacity of obtained yarn decrease by 16%.The use of yarn
based on recycled fibers suggests the recent and progress demand for special
DENIM woven in particular is met, at least partially, through this way.
Industrial cotton waste: Recycling, Reclaimed fiber behavior and quality prediction of its blend
This paper aims to explore the use of industrial cotton waste as an
alternative of virgin cotton and to understand the effects of recycling process
in the global quality of reclaimed fiber. It also tries to predict the quality
of the mix of recycled fiber with virgin cotton using mathematical approach.The
global quality of recycled fibers was investigated using single criteria like
Mean Length (ML), Span Length (SL2.5)… and with complex criteria
such as Fiber Quality Index (FQI) and Spinning
Consistency Index
(SCI). The blending fibers properties were simulated mathematically. The ML, SL2.5,
Upper Half Mean Length (UHML), Upper Quality Length (UQL), Fineness and
Uniformity Ratio (UR) were analyzed according to the simulation results which
were reported by experimental analysis using R² as correlation coefficient. The
optimum quality of reclaimed fiberswasselected with the consideration of FQI
and SCI plots.
The blend of recycled
fibers with Malian fibers was selected as the beneficial mix. Under the optimum
recycling condition, the effect of recycled fibers (40%, 50%, 60% and 75%) on
the irregularity and the tenacity of blended yarn were evaluated. It was shown that the CVm %, Thinness 30%/Km, Thickness
30%/km, Neps 280%/m andHairiness % of obtained yarn increase by 20%, 13%, 32%,
50% and 20%, respectively, when the ratio of recycled fibers increase from 40%
to 75%. While the tenacity of obtained yarn decrease by 16%.The use of yarn
based on recycled fibers suggests the recent and progress demand for special
DENIM woven in particular is met, at least partially, through this way.
___
- 1. Güngör A, Palamutçu S, İkiz Y. 2009, COTTON TEXTILES AND THE ENVIRONMENT: LIFE CYCLE ASSESSMENT OF A BATHROBE. TEKSTİL VE KONFEKSİYON.;19(3), pp:197–205.
- 2. USDA | Commodity Forecasts | World Agricultural Supply and Demand Estimates. Interagency Commodity Estimates Committee Forecasts; 2017.
- 3. Thouvenot T. 2012, The Water Footprint of France. Vol. 56. PaysBas: University of Twente, pp; 1-38.
- 4. Agbohessi PT, Toko II, Atchou V, Tonato R, Mandiki SNM, Kestemont P. 2015, Pesticides used in cotton production affect reproductive development, endocrine regulation, liver status and offspring fitness in African catfish Clarias gariepinus (Burchell, 1822). Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology.;167, pp;157–72.
- 5. Aral N, Berkalp ÖB, Bakkal M, Sadikoğlu TG. 2009, INVESTIGATION OF IMPACT AND TENSILE BEHAVIOURS OF WASTE FABRIC REINFORCED POLYMER COMPOSITES. TEKSTİL VE KONFEKSİYON.;19(2), pp:139–44.
- 6. Taşdemir M, Koçak D, Merdan N, Usta İ, Akalin M. 2014,Recycled Polyamide-6/Waste Silk & Cotton Fibre Polymer Composites:Effect of Fibre length. Marmara Fen Bilimleri Dergisi.;25(4), pp:157–66.
- 7. Gülümser T, Balpetek FG, Demir A. 2015,DURABILITY OF FABRIC SOFTENERSR17; ODORS USED IN HOME TYPE OF WASHINGS AT COTTON PRODUCTS DURING WEARING. TEKSTİL VE KONFEKSİYON.;25(3), pp:263–9.
- 8. Telli A, Babaarslan O. 2016,COMMERCIALIZED DENIM FABRIC PRODUCTION WITH POST-INDUSTRIAL AND POST-CONSUMER WASTES. TEKSTİL VE KONFEKSİYON.;26(2), pp:213–20.
- 9. Natalio F, Tahir MN, Friedrich N, Köck M, Fritz-Popovski G, Paris O. 2016,Structural analysis of Gossypium hirsutum fibers grown under greenhouse and hydroponic conditions. Journal of Structural Biology.;194(3), pp:292–302.
- 10. Regina A. Sanches, João Paulo Pereira Marcicano, Maria Silvia Barros de Held, Bárbara Maria Gama Guimarães, Raquel Seawright Alonso, Karina Mitie Takamune ,2015,Organic cotton, lyocell and SPF: a comparative study. Int Jnl of Clothing Sci & Tech.;27(5), pp:692–704.
- 11. Hanafy I. 1997,Fabric from cotton waste. Ihe Indian Textile Journal.;4(3), pp:16–8.
- 12. M.N. Sun, K.P.S. Cheng. 2000,The quality of fabric knitted from cotton Sirospun1 yarn. Int Jnl of Clothing Sci & Tech.;12(5), pp:351–60.
- 13. Halimi TM, Azzouz B, Ben Hassen M, Sakli F. 2009,Influence of Spinning Parameters and Recovered Fibers from Cotton Waste on the Uniformity and Hairiness of Rotor Spun Yarn. Journal of Engineered Fibers and Fabrics.4(3), pp:36–45.
- 14. Bruggeman JP. 1998,Traitements mécaniques des déchets et des cotons charges. Industrie textile.;11(28), pp:1049–51.
- 15. Wulfhorst B. 1984,The technological and economic aspects of the recycling of wastes in modern cotton mills. Textile Praxis International.;1(1), pp:741–3.
- 16. Wanassi B, Azzouz B, Hassen MB. 2016,Value-added waste cotton yarn: Optimization of recycling process and spinning of reclaimed fibers. Industrial Crops and Products.;87, pp:27–32.
- 17. Telli A, Babaarslan O. 2017,The effect of recycled fibers on the washing performance of denim fabrics. The Journal of The Textile Institute.;108(5), pp:812–20.
- 18. Halimi MT, Hassen MB, Azzouz B, Sakli F. 2007,Effect of cotton waste and spinning parameters on rotor yarn quality. The Journal of The Textile Institute.;98(5), pp:437–42.
- 19. Majundar A, Majundar PK, Sarkar B. 2005,DETERMINATION OF THE TECHNOLOGICAL VALUE OF COTTON FIBRE: A COMPARATIVE STUDY OF THE TRADITIONAL AND MULTIPLE-CRITERIA DECISION-MAKING APPROACHES. AUTEX Research Journal.;5(2), pp:71–80.
- 20. Asif M, Mirza JI, Zafar Y. 2008,GENETIC ANALYSIS FOR FIBER QUALITY TRAITS OF SOME COTTON GENOTYPES. Pakistan Journal of Botanic.;40(3), pp:1209–15.
- 21. Dochia M, Sirghie C, Kozłowski RM, Roskwitalski Z. 2012,Cotton fibres. Handbook of Natural Fibres. vol. 1, pp; 11–23.