Günümüzde, tekstil endüstrisi ticari DP-90 pamuk
genotiplerinin örneklerinin teknolojik değerlerini ölçmek için “SCI” ve “FQI”
olmak üzere iki temel ticari nicelikleme yöntemini kullanmaktadır. Son yıllarda,
araştırmacılar, , ticari pamukların kalitesi ve işlenebilirliği bilgisi vermek
için yetersiz göründükleri tespitiyle bu iki yaygın yöntem üzerine için araştırmalar
sürdürülmektedir. Bu çalışmada, pamuk kalitesi ve işlenebilirliğinin genel
değerlendirilmesinde pamuk elyafının mukavemeti ve uzaması arasındaki ilişkinin
önemini belirlemek üzere deney bir çalışma yapılmıştır. Çalışmadan elde edilen
sonuçlar pamuk lifi uzama özelliğinin pamuk kalitesini ve işlenebilirliğini
öngörmek için kritik önem taşıdığını göstermiştir.
USTER News bulletin, (1991), “Measurement of the quality characteristics of cotton fibre”, 38, 23-31.
Hequet, E. F., and B. Kelly,( 2012), “Predicting yarn quality: “An indispensable tool for cotton breeders”, International Cotton Conference, , 57-70, March 21-24,Bremen, Germany.
Lord, E., (1981), “The Origin and Assessment of Cotton Fibre Maturity”, International Institute for Cotton, Didsbury, Manchester, U.K.
Ratnam, T.V., Doraisamy, I., Seshadri, S., Rajamanickan, R. and Chellamani, K.P., (1995), “ Norms for the Spinning Mills”. The South Indian Textile Research Association, Coimbatore, India.
Murthy, H.V. and Samanta, S. K. (2000), “ A Fresh Look at Fiber Quality Index”, The Indian Textile Journal., 111 (3): 29-37.
Backe, E. E., (1996), “The importance of cotton fiber elongation on yarn quality and weaving performance”, Proceedings of the 9th Engineered Fiber Selection System Conference, Cotton Incorporated, Cary, 1–13, NC, USA.
Benzina, H., E. Hequet, N. Abid, J. Gannaway, J.-Y. Drean and O. Harzallah, (2007), “Using Fiber Elongation to Improve Genetic Screening in Cotton Breeding Programs”; Textile Research Journal Vol 77(10): 770–778.
E. F. Hequet, S. Baker, C. Turner, B. Kelly, H. Sari-Sarraf, and S. Gordon,(2016) “Breaking the fiber quality ceiling: Limitations of cotton fibers bundle Testing” 33rd International Cotton Conference; March 16-18 Bremen, Germany.
Hertel, K. L., and Craven, J. C., (1956), "Cotton Fiber Bundle Elongation and Tenacity as Related to Some Fiber and Yarn Properties," Textile R search Journal, 26: 479-84.
Meredith, R. S., (1946), “The elastic properties of textile fibres”, Journal of the Textile Institute., 37, 10: 469- 480.
Orr, R. S., and Grant, J. N., (1953), “Cotton”, Textile Research Journal 23: 505-509.
Platt, M. M., Klein, W. G., and Hamburger, W. J., (1952), “Mechanics of Elastic Performance of Textile Materials”, Textile Research Journal, 22: 641-667.
Virgin, WP and Wakeham H., (1956), “Cotton quality and fiber properties, part IV”. Textile Research Journal; 26: 177–191.
Derichs, J., (1986), “ Theoretical and Practical Limits of Rotor Spinning in the Production of Fine Yarns”, Schlafhorst documentation, 1–9, No. 16, a141e-3.86.
Louis, A. Fiori, Jack E. Sands, Herschel W. Little, and James N. Grant, (1956), “Effect of Cotton Fiber Bundle Break Elongation and Other Fiber Properties on the Properties of a Coarse and a Medium Singles Yarn”; Textile Research Journal; 26 (7): 553–564.
May, O. L., and Jividen, G. M., (1999), “Genetic Modification of Cotton Fiber Properties as Measured by Single and High Volume Instruments”, Crop Science, 39: 328–333.
Kugler, G., U.Mörschel, W. Stein, (2012), “Strength testing of cotton by using Textechno FIBROTEST in comparison to HVI 1000”, Spinning Seminar; Denkendorf.
Tesema, G. B., and Hussein, K.M.M., (2015), “Comparison of different quantification methods to define fiber quality of Ethiopian, Indian & Egyptian cottons” International Journal of Fiber and Textile Research 5 (2): 9-15.
Koo H.J., and Suh M.W, (1999), “Maximizing Yarn and Fabric Strength through Variance of HVI Elongation”; Textile Research Journal, 69 (6): 447 – 456.
A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation
Yıl 2018,
Cilt: 25 Sayı: 111, 182 - 188, 01.10.2018
Currently, the textile industry is mainly using the two basic commercial quantification methods namely, SCI and FQI toevaluatethetechnologicalvaluesofsamples of commercialDP-90 cotton genotypes.
Of late, researchers were investigating that these two widely used cotton
characterization tests as they seem to be insufficient togivequalityandprocessability
information aboutthecommercialcottons. I this study a modified fiber quality index (MFQI) is formulated for the
studied commercial DP-90 cotton. In the study, experiments
weredone to assess the importance of
the association between
tenacity andelongation
of cotton fibres in the overall evaluation of the cotton quality and
processability. The results obtained from the study demonstratedthatthe cotton fibreelongationpropertyis criticallyimportant to
predict
thequalityandprocessabilityof cotton as well. The results obtained
show that the combination of HVI and CCS data allows us to predict quite
accurately technological values of cotton fiber properties for commercial
bales.
USTER News bulletin, (1991), “Measurement of the quality characteristics of cotton fibre”, 38, 23-31.
Hequet, E. F., and B. Kelly,( 2012), “Predicting yarn quality: “An indispensable tool for cotton breeders”, International Cotton Conference, , 57-70, March 21-24,Bremen, Germany.
Lord, E., (1981), “The Origin and Assessment of Cotton Fibre Maturity”, International Institute for Cotton, Didsbury, Manchester, U.K.
Ratnam, T.V., Doraisamy, I., Seshadri, S., Rajamanickan, R. and Chellamani, K.P., (1995), “ Norms for the Spinning Mills”. The South Indian Textile Research Association, Coimbatore, India.
Murthy, H.V. and Samanta, S. K. (2000), “ A Fresh Look at Fiber Quality Index”, The Indian Textile Journal., 111 (3): 29-37.
Backe, E. E., (1996), “The importance of cotton fiber elongation on yarn quality and weaving performance”, Proceedings of the 9th Engineered Fiber Selection System Conference, Cotton Incorporated, Cary, 1–13, NC, USA.
Benzina, H., E. Hequet, N. Abid, J. Gannaway, J.-Y. Drean and O. Harzallah, (2007), “Using Fiber Elongation to Improve Genetic Screening in Cotton Breeding Programs”; Textile Research Journal Vol 77(10): 770–778.
E. F. Hequet, S. Baker, C. Turner, B. Kelly, H. Sari-Sarraf, and S. Gordon,(2016) “Breaking the fiber quality ceiling: Limitations of cotton fibers bundle Testing” 33rd International Cotton Conference; March 16-18 Bremen, Germany.
Hertel, K. L., and Craven, J. C., (1956), "Cotton Fiber Bundle Elongation and Tenacity as Related to Some Fiber and Yarn Properties," Textile R search Journal, 26: 479-84.
Meredith, R. S., (1946), “The elastic properties of textile fibres”, Journal of the Textile Institute., 37, 10: 469- 480.
Orr, R. S., and Grant, J. N., (1953), “Cotton”, Textile Research Journal 23: 505-509.
Platt, M. M., Klein, W. G., and Hamburger, W. J., (1952), “Mechanics of Elastic Performance of Textile Materials”, Textile Research Journal, 22: 641-667.
Virgin, WP and Wakeham H., (1956), “Cotton quality and fiber properties, part IV”. Textile Research Journal; 26: 177–191.
Derichs, J., (1986), “ Theoretical and Practical Limits of Rotor Spinning in the Production of Fine Yarns”, Schlafhorst documentation, 1–9, No. 16, a141e-3.86.
Louis, A. Fiori, Jack E. Sands, Herschel W. Little, and James N. Grant, (1956), “Effect of Cotton Fiber Bundle Break Elongation and Other Fiber Properties on the Properties of a Coarse and a Medium Singles Yarn”; Textile Research Journal; 26 (7): 553–564.
May, O. L., and Jividen, G. M., (1999), “Genetic Modification of Cotton Fiber Properties as Measured by Single and High Volume Instruments”, Crop Science, 39: 328–333.
Kugler, G., U.Mörschel, W. Stein, (2012), “Strength testing of cotton by using Textechno FIBROTEST in comparison to HVI 1000”, Spinning Seminar; Denkendorf.
Tesema, G. B., and Hussein, K.M.M., (2015), “Comparison of different quantification methods to define fiber quality of Ethiopian, Indian & Egyptian cottons” International Journal of Fiber and Textile Research 5 (2): 9-15.
Koo H.J., and Suh M.W, (1999), “Maximizing Yarn and Fabric Strength through Variance of HVI Elongation”; Textile Research Journal, 69 (6): 447 – 456.
Tesema, G. B., & Subramanıan, K. (2018). A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation. Tekstil Ve Mühendis, 25(111), 182-188.
AMA
Tesema GB, Subramanıan K. A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation. Tekstil ve Mühendis. Ekim 2018;25(111):182-188.
Chicago
Tesema, G. B., ve K. Subramanıan. “A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation”. Tekstil Ve Mühendis 25, sy. 111 (Ekim 2018): 182-88.
EndNote
Tesema GB, Subramanıan K (01 Ekim 2018) A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation. Tekstil ve Mühendis 25 111 182–188.
IEEE
G. B. Tesema ve K. Subramanıan, “A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation”, Tekstil ve Mühendis, c. 25, sy. 111, ss. 182–188, 2018.
ISNAD
Tesema, G. B. - Subramanıan, K. “A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation”. Tekstil ve Mühendis 25/111 (Ekim 2018), 182-188.
JAMA
Tesema GB, Subramanıan K. A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation. Tekstil ve Mühendis. 2018;25:182–188.
MLA
Tesema, G. B. ve K. Subramanıan. “A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation”. Tekstil Ve Mühendis, c. 25, sy. 111, 2018, ss. 182-8.
Vancouver
Tesema GB, Subramanıan K. A Study on The Fibre Parameters of Cotton Quality and Processability Evaluation. Tekstil ve Mühendis. 2018;25(111):182-8.