Kompakt eğirme, günümüzde mevcut olan ring eğirme teknolojisinin modifiye edilmiş halidir. Bu eğirme tekniğinin kullanılması ile ipliğin kalitesi ve yapısı geliştirilmiştir. Yapılan deneysel çalışmada hava emiş gücünün kompakt ipliğin kalitesi üzerindeki etkisi incelemiştir. Bu amaca uygun olarak, ‘Suessen Elite@’ sisteminde 17 mbar, 19 mbar, 21 mbar, 23 mbar ve 25 mbar (1 mbar = 100 Pa) gibi farklı negatif emiş güçleri kullanılarak 52 Ne ipliğin beş farklı numunesi üretilmiştir. İnverter frekansının kullanımı ile farklılaştırılan emiş güçlerine göre enerji tüketiminin hesaplanmasının yanı sıra üretilen ipliklerin varyasyon katsayısı (CVm%), düzgünsüzlük indeksi, tüylülüğü ve CSP (Count Strength Product) gibi kalite parametreleri analiz edilmiştir. Sonuç olarak, diğer emiş güçleri ile karşılaştırıldığında ipliğin kalitesi ve enerji tüketimi açısından 23 mbar optimum emiş gücü olarak belirlenmiştir. Bu deneysel çalışma kompakt ipliğin minimum düzgünsüzlük ve tüylülük ile üretilebilmesi için optimum emiş gücünün belirlenebilmesi açısından iplik üreticilerine fikir verecektir.
[1] Kumar, A., Ishtiaque, SM., Salhotra, KR., (2003), Compact spinning: a critical review."ASME International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers Digital Collection.
[2] Nikolić M., Stjepanovič, Z., Lesjak, F., Štritofand, A., (2003), Compact spinning for improved quality of ring-spun yarns, Fibres & Textiles in Eastern Europe, 4(43), 30-35.
[3] Liu, X., Su, X., (2015), Theoretical Study of Effect of Ring Spinning Triangle Division on Fiber Tension Distribution, Journal of Engineered Fibers and Fabrics, 10(3), 20-28.
[4] Ma, H.C., Cheng, L.D., Yan, G.X., Xu, S.P., (2014), Studies of Negative Pressure and Cleaning Condition Effects on Gathering for Ramie Compact Spinning with a Suction Groove, Fibres & Textiles in Eastern Europe, 22( 10),54-57.
[5] Zou Z.Y., Guo, Y.F., Zheng, S.M., Cheng, L.D., Liu, S.R., (2011), Model of the Yarn Twist Propagation in Compact Spinning with a Pneumatic Groove, Fibres & Textiles in Eastern Europe, 19(1), 30-33.
All references are presented into the article main file!
Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter
Year 2020,
Volume: 27 Issue: 119, 154 - 158, 30.09.2020
Compact spinning is the modification of existing ring spinning technology. The structure and quality of yarn are improved by using this spinning technique. This experimental work explores the effect of air suction pressure on the quality of compact yarn. Due to this reason, five samples of 52 Ne yarn were produced using different negative suction pressures such as 17 mbar, 19 mbar, 21 mbar, 23 mbar and 25 mbar (1 mbar = 100 Pa) in Suessen Elite@ system by changing the frequency of inverter. Samples were collected and then results were carried out. After that, the quality parameters of the produced yarn such as Mass variation (CVm%), Imperfection index, Hairiness and Count Strength Product (CSP) were analyzed along with calculating the power consumption against different suction pressures using the inverter frequency. Finally, the test results showed that yarn obtained from 23 mbar negative suction pressure was optimum considering the yarn quality and power consumption compared to others. This experimental work will provide an idea for spinners’ to choose optimum suction pressure for producing minimum imperfection and hairiness of compact yarn.
[1] Kumar, A., Ishtiaque, SM., Salhotra, KR., (2003), Compact spinning: a critical review."ASME International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers Digital Collection.
[2] Nikolić M., Stjepanovič, Z., Lesjak, F., Štritofand, A., (2003), Compact spinning for improved quality of ring-spun yarns, Fibres & Textiles in Eastern Europe, 4(43), 30-35.
[3] Liu, X., Su, X., (2015), Theoretical Study of Effect of Ring Spinning Triangle Division on Fiber Tension Distribution, Journal of Engineered Fibers and Fabrics, 10(3), 20-28.
[4] Ma, H.C., Cheng, L.D., Yan, G.X., Xu, S.P., (2014), Studies of Negative Pressure and Cleaning Condition Effects on Gathering for Ramie Compact Spinning with a Suction Groove, Fibres & Textiles in Eastern Europe, 22( 10),54-57.
[5] Zou Z.Y., Guo, Y.F., Zheng, S.M., Cheng, L.D., Liu, S.R., (2011), Model of the Yarn Twist Propagation in Compact Spinning with a Pneumatic Groove, Fibres & Textiles in Eastern Europe, 19(1), 30-33.
All references are presented into the article main file!
Chakrabortty, A., Hossaın, A., & Ghosh, J. (2020). Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter. Tekstil Ve Mühendis, 27(119), 154-158.
AMA
Chakrabortty A, Hossaın A, Ghosh J. Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter. Tekstil ve Mühendis. September 2020;27(119):154-158.
Chicago
Chakrabortty, Amit, Asif Hossaın, and Joyjit Ghosh. “Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter”. Tekstil Ve Mühendis 27, no. 119 (September 2020): 154-58.
EndNote
Chakrabortty A, Hossaın A, Ghosh J (September 1, 2020) Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter. Tekstil ve Mühendis 27 119 154–158.
IEEE
A. Chakrabortty, A. Hossaın, and J. Ghosh, “Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter”, Tekstil ve Mühendis, vol. 27, no. 119, pp. 154–158, 2020.
ISNAD
Chakrabortty, Amit et al. “Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter”. Tekstil ve Mühendis 27/119 (September 2020), 154-158.
JAMA
Chakrabortty A, Hossaın A, Ghosh J. Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter. Tekstil ve Mühendis. 2020;27:154–158.
MLA
Chakrabortty, Amit et al. “Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter”. Tekstil Ve Mühendis, vol. 27, no. 119, 2020, pp. 154-8.
Vancouver
Chakrabortty A, Hossaın A, Ghosh J. Study on the Effect of Air Suction Pressure on the Quality of Compact Yarn by Changing the Frequency of Inverter. Tekstil ve Mühendis. 2020;27(119):154-8.