Academic literature on the topic 'Blended yarns'
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Journal articles on the topic "Blended yarns"
Zhang, An Fen, and Zhao Peng Xia. "Properties of Jute Blended Yarns Spun on Ring Spinning System." Advanced Materials Research 779-780 (September 2013): 290–93. http://dx.doi.org/10.4028/www.scientific.net/amr.779-780.290.
Full textMukhopadhyay, Arunangshu, Saiyed Muzffar Ishtiaque, and Devanand Uttam. "Impact of Structural Variations on Pre-Hollow/Micro-Porous Yarn's Tensile and Physical Properties." Journal of Engineered Fibers and Fabrics 7, no. 1 (March 2012): 155892501200700. http://dx.doi.org/10.1177/155892501200700107.
Full textLakhchaura, Pallavi, Manisha Gahlot, and Anita Rani. "Influence of blend ratio on physical properties of oak tasar silk and acrylic blended spun yarn." Journal of Applied and Natural Science 11, no. 2 (June 10, 2019): 388–93. http://dx.doi.org/10.31018/jans.v11i2.2038.
Full textMa, Chongqi, Xinlong Li, and Baoming Zhou. "Investigation of Mechanical and Physical Properties of Far-Infrared Tencel/Acrylic and Far-Infrared Tencel/Cotton Blended Ring-Spun Yarns." Journal of Engineered Fibers and Fabrics 10, no. 3 (September 2015): 155892501501000. http://dx.doi.org/10.1177/155892501501000311.
Full textJalil, Mohammad Abdul, Rabindra Chandra Sinha, A. K. M. Mahabubuzzaman, Md Milon Hossain, and Mohammad Arafat Idris. "Study on Physical and Structural Properties of Jute-Palf Blended Yarn Spun by Apron Draft Spinning." Research Journal of Textile and Apparel 19, no. 3 (August 1, 2015): 9–15. http://dx.doi.org/10.1108/rjta-19-03-2015-b002.
Full textWatanabe, Akira, Shi-Nya Kurosaki, Fujio Konda, and Yoshiro Nishimura. "Analysis of Blend Irregularity in Yarns Using Image Processing: Part II: Applying the System to Actual Blended Yarns." Textile Research Journal 62, no. 12 (December 1992): 729–35. http://dx.doi.org/10.1177/004051759206201205.
Full textKarthikeyan, Govindan, Govind Nalankilli, O. L. Shanmugasundaram, and Chidambaram Prakash. "Thermal comfort properties of bamboo tencel knitted fabrics." International Journal of Clothing Science and Technology 28, no. 4 (August 1, 2016): 420–28. http://dx.doi.org/10.1108/ijcst-08-2015-0086.
Full textZhu, Jin Zhong, Dan Yang, Jing Yan Wei, and Na Liu. "Study on the Performance of Blended Yarn with Outlast Air-Conditioning Viscose Fiber." Advanced Materials Research 557-559 (July 2012): 1113–16. http://dx.doi.org/10.4028/www.scientific.net/amr.557-559.1113.
Full textYang, Zhong Cheng, and Lan Ping Shen. "Effect of Blended Ratio on Strength and Elongation Properties of Outlast /Viscose Blended Yarn." Advanced Materials Research 332-334 (September 2011): 407–11. http://dx.doi.org/10.4028/www.scientific.net/amr.332-334.407.
Full textFeng, Jie, Min Zhang, Tao Hua, and Ka Hei Chan. "Study of a newly structuralized meta-aramid/cotton blended yarn for fabrics with enhanced flame-resistance." Textile Research Journal 90, no. 5-6 (August 22, 2019): 489–502. http://dx.doi.org/10.1177/0040517519871262.
Full textDissertations / Theses on the topic "Blended yarns"
Seth, A. K. "Filament blending in air-jet texturing." Thesis, University of Leeds, 1988. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.235149.
Full textOener, Erhan. "Thermal characterization of polyester/cellulosic blended materials." Thesis, University of Leeds, 1989. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.329259.
Full textDallel, Mohamed. "Evaluation du potentiel textile des fibres d'Alfa (Stipa Tenacissima L.) : caractérisation physico-chimique de la fibre au fil." Phd thesis, Université de Haute Alsace - Mulhouse, 2012. http://tel.archives-ouvertes.fr/tel-00844129.
Full textDallas, Oxana. "Augmented Reality: The Art Of Storytelling Through A Blend Of Digital Photography And Woven Jacquard Structure." Kent State University / OhioLINK, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=kent1523379008522673.
Full textGaumond, Baptiste. "Compréhension des interfaces / interphases formées dans les composites PPS / fibres de carbone et PPS / fibres de basalte réalisés à partir de mèches comélées et retordues." Thesis, Lyon, 2020. http://www.theses.fr/2020LYSEI064.
Full textThis thesis work is devoted to the understanding of the structure-properties relationships of composite materials made from hybrid rovings composed of the thermoplastic matrix, polyphenylene sulphide, and reinforcements that can be either carbon or basalt. Thus, several lines of research have been pursued in this work: i) the impact of the commingling process on the final properties of composites, ii) the understanding of fiber-matrix interactions and iii) the optimization of those interactions in the interface. This work first demonstrated the link established between the mechanical and structural properties of the hybrid yarns and the mechanical properties of composite materials. The air commingling process degrades the resistance of the fibers and this is observed both on filaments tensile tests and commingled yarns. This degradation is not observed on twisted yarns. In the same time, composites based on commingled yarns show a better homogeneity, mechanical properties and a lower porosity rate. In a second step, the adhesion developped in all composite systems was evaluated at the micromechanical scale and correlated at the macroscopic scale. Accelerated ageing tests were also carried out to discriminate the most durable solutions. A final part of this work is devoted to the optimization of the interfacial properties of the systems studied. Two solutions were developed and gave interesting results: the use of a PPS / PE-EMA-GMA polymer mixture allowed to improve up to 56% the IFSS with basalt fibers and the use of an imidazolium salt as interfacial agent in the matrix allowed to improve by 25% the IFSS obtained with carbon fibers
Chun, Yang Hung, and 楊弘君. "Study of Wool/Cotton Blended Yarns Optimization Process Conditions by Vortex Spinning Machine." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/13447281216601604055.
Full text輔仁大學
織品服裝學系碩士班
102
In this study, we discussed the best parameters using vortex spinning machine to manufacture wool/ cotton blended yarn. Select two different percentage of wool and cotton, including w/c 20:80 and w/c 30:70, to spin Ne 30 products. We use four parameters including spinning speed, nozzle holes, top roller stiffness and air jet pressure, to discuss with different above parameters can effect yarn’s strength, evenness(thick and thin), neps and hairiness. As the results show that with increasing spinning speed can increase yarn’s strength and hairiness; however, evenness and neps will decrease with decrease spinning speed. We also find out, there is no different when the spinning speed over 300m/min. Moreover, it can be found that the best quality of sample is using 5 nozzle holes, top roller stiffness 72 degree and air jet pressure 0.55MPa. With economic spinning parameters, we select 5 nozzle holes, 340m/min spinning speed, top roller stiffness 72 degree and air jet pressure 0.55MPa to spin Ne 30 with wool: cotton 20:80 blended yarn.
HUANG, CHI, and 黃淇. "Development of 4T Polyester /Flax Blended Yarns and the Moisture Management Properties of Fabrics." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/bdxd6n.
Full text輔仁大學
織品服裝學系碩士班
106
In recent years, there have been many studies on the development of profiled fiber sections, but there is almost non 4T Profiled Fiber research. Therefore, this study will discuss the basic properties of 4T Profiled Fiber yarns and compare them with 4T Profiled Fiber/flax blended yarn. In addition, we also weave them into Plain Fabric and Quadrangle pique Fabric. At last, we carry out moisture management test of all fabrics to analyze and compare its moisture absorption performance. The results show that compared them with different tissues, the Plain Fabric is similar to the Quadrangle pique Fabric. Overall, the higher the ratio of the flax blended fabric, the better the value of the fabric, especially when the flax blended come to 20% is much better, but if it is graded, it is within the same rating range. Besides, the Plain Fabric and the Quadrangle pique Fabric all have 4 to 5 grades at wetting time, absorption rate, maximum wetted radius and spreading speed, which are in excellent categories. In the one-way transportation capacity, it ranks as Level 2 (Ordinary). If the design of the fabric is a Plain Fabric, the ability to conduct moisture in one direction is not significant. However, it can be seen from the moisture profile of the fabric that the moisture of the skin layer is outwardly transmitted to the outer fabric. In terms of comfort, there is still the effect of achieving a comfortable and dry inner layer.
SHIH, CHIA-CHUN, and 施嘉峻. "Life Cycle Assessment and Carbon Footprint of the Production of Polyester Yarn and Blended Yarn." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/ra5v7t.
Full text大葉大學
環境工程學系碩士在職專班
106
The main objective of this study is to conduct life cycle assessment and carbon footprint studies for the production of polyester yarn and blended yarn using Simapro software. The life cycle assessment results obtained from this study indicated that when each ton of polyester yarn and blended yarn were produced, the environmental impact values of the consumed raw materials were 38.26 (Pt / ton) and 33.1 (Pt / ton), respectively. Among all the environmental impact indicators, the "acidification" had the greatest influence, with the values of 18.87 (Pt / ton) and 12.51 (Pt / ton), respectively. When each ton of polyester yarn and blended yarn were produced, the environmental impact values of the energy consumption 4.84 (Pt / ton) and 5.7 (Pt / ton), respectively. Among all the environmental impact indicators, the "heavy metals" had the greatest influence, with the values of 2.48 (Pt / ton) and 2.89 (Pt / ton), respectively. When each ton of polyester yarn and blended yarn were produced, the environmental impact values were 43.1 (Pt / ton) and 38.8 (Pt / ton), respectively. Among all the environmental impact indicators, the "acidification" had the greatest influence, with the values of 20 (Pt / ton) and 13.8 (Pt / ton), respectively. The second component of this study consisted of analysis of polyester yarn and blended yarn manufacturing stage of carbon footprint. The carbon footprint values obtained were 22700 (kg CO2 eq/ton) and 15600 (kg CO2 eq/ton) of polyester yarn and blended yarn by using Taiwan local power CO2 emission data. Generally, it can be concluded that during the producing processes, polyester yarn produced the greatest environmental impact and generated the most serious carbon footprint influence.
Lin, Chuen Sheng, and 林俊生. "Computer Aided Design for Wrinkle-Free Processing of Yarn-Dyeing Cotton-Linen Blended Woven Fabric." Thesis, 2001. http://ndltd.ncl.edu.tw/handle/42237724347052657940.
Full text國立臺灣科技大學
纖維及高分子工程系
90
The capability of yarn dyeing fabric has a great improvement recently. Applying wrinkle-free processing feature to traditional cotton or linen blended woven fabric can be the direction for future research, especially under the situation that the textile industry is looking for good marketing. In this thesis, fishbone diagram and factor-analysis are applied to analyze the important influent elements for wrinkle-free processing . The Taguchi method is used to find relative processing factors, such as pick-up, curing, temperature, resin agent and reaction speed. Based on the quality requirement of wrinkle-free of yarn-dyeing cotton- linen blended woven fabric, the back-propagation neural network is applied to find the optimal processing parameters for manufacturing. The try- and- error method used by the textile industry in the past to test this processing method has not only wasted the costs but also made it impossible to get the best conditions for manufacturing, and it caused the problem of repeatability. Instead, the mode adopted in this research will provide one of the best methods for producing this kind of fabric.
HUANG, JING-XING, and 黃景星. "Study of the yarn physical properties of oxidized PAN fiber and its blends." Thesis, 1992. http://ndltd.ncl.edu.tw/handle/38664105718782872830.
Full text逢甲大學
紡織工程研究所
80
1. 前言 1-1 亞克力氧化纖維紡紗的演進 1-2 亞克力氧化纖維的特性 1-3 本文研究目的及重點 2. 理論 2-1 混紡理論 2-2 纖維移行率理論 2-3 纖維及紗線摩擦性質之測定 2-3-1 摩擦基本理論 2-3-2 纖維與紗線摩擦性質之測定 2-4 燃燒理論 2-4-1 燃燒 2-4-2 纖維的燃燒過程 3. 實驗 3-1 實驗材料 3-2 實驗方法 3-2-1 紡紗流程 3-2-2 紡紗工程條件 3-2-3 包蕊紗及包覆紗紡製方法 3-3 物性測試 3-3-1 纖維長度、強伸度、均齊度測試 3-3-2 棉條重量變異測試 3-3-3 紗支均勻度試驗 3-3-4 紗支格林試驗 3-3-5 紗線強伸度試驗 3-3-6 纖維移行率測試 3-3-7 混紡率測試 3-3-8 摩擦次數試驗 3-3-9 最低供氧指數測試 3-3-10 纖維、紗支表面之橫斷面觀測 4. 結果與討論 4-1 改變梳棉條件對亞克力氧化纖維物性之探討 4-1-1 改變餵棉板-刺坤及錫林-針板隔距對纖維長度之影響 4-1-2 改變刺坤及錫林速度對纖維長度之影響 4-2 紡紗流程中纖維物性之變化 4-2-1 纖維物性 4-2-2 清花及梳棉工程對纖維強伸度之影響 4-2-3 併條及粗紡工程對纖維強伸度之影響 4-2-4 紡紗流程中纖維長度之變化 4-2-5 紡紗流程中纖維細度之變化 4-2-6 紡紗流程中下腳纖長和纖細之變化 4-3 紡紗流程中棉條重量變異之探討 4-4 紡紗流程中混紡率之變化 4-5 梳棉機之纖維移行率 4-5-1 纖維移行率測定 4-5-2 改變錫林與道夫速度比對纖維移行率之影響 4-6 成紗特性 4-6-1 改變撚係數對純氧化纖維紗物性之影響 4-6-2 氧化纖維混紡紗之物性 4-6-3 改變混紡率對成紗物性之影響 4-7 紗之耐磨性 4-7-1 氧化纖維混紡紗之耐磨性 4-7-2 上油上漿對紗耐磨性之影響 4-8 亞克力氧化纖維包蕊紗及包覆紗之物性比較 4-8-1 包蕊紗及包覆紗之強伸度 4-8-2 包蕊紗及包覆紗之耐燃性 4-8-3 改變撚係數對包蕊紗及包覆紗物性之影響 4-8-4 改變長絲丹尼數對包蕊紗及包覆紗物性之影響 5. 結論 6. 參考文獻 致謝 作者簡介
Books on the topic "Blended yarns"
Ulrich, Alvin. Market and preliminary costing study for cottonized flax fibre for textile blending: Final report. [Regina]: Saskatchewan Agriculture and Food, 1995.
Find full textGong, R. H. Specialist yarn, woven and fabric structures: Developments and applications. Sawston: Woodhead Pub., 2011.
Find full textBatwal, G. D. Global Challenge Vis-A-Vis Performance Levels of Modern Blended Yarn Spinning Mills in India. Bombay Textile Research Association, Ope, 2005.
Find full textThe 2006-2011 World Outlook for Broadwoven Twill Weave Fabrics Made from 85-Percent Spun Yarns Excluding Wool Blends and Pile. Icon Group International, Inc., 2005.
Find full textParker, Philip M. The 2007-2012 World Outlook for Dyed Yarns Made from Polyester-Cotton Blends Not Spun or Thrown in the Same Establishment. ICON Group International, Inc., 2006.
Find full textThe 2006-2011 World Outlook for Dyed Yarns Made from Polyester-Cotton Blends Not Spun or Thrown in the Same Establishment. Icon Group International, Inc., 2005.
Find full textParker, Philip M. The 2007-2012 Outlook for Dyed Yarns Made from Polyester-Cotton Blends Not Spun or Thrown in the Same Establishment in Japan. ICON Group International, Inc., 2006.
Find full textParker, Philip M. The 2007-2012 Outlook for Dyed Yarns Made from Polyester-Cotton Blends Not Spun or Thrown in the Same Establishment in India. ICON Group International, Inc., 2006.
Find full textThe 2006-2011 World Outlook for Broadwoven Plain Weave Fabrics Made from at Least 85-Percent Spun Yarns Excluding Wool Blends and Pile. Icon Group International, Inc., 2005.
Find full textParker, Philip M. The 2007-2012 World Outlook for Broadwoven Twill Weave Fabrics Made from at Least 85-Percent Spun Yarns Excluding Wool Blends and Pile. ICON Group International, Inc., 2006.
Find full textBook chapters on the topic "Blended yarns"
Hayam, N. H. A., M. R. Ahmad, W. Y. W. Ahmad, M. F. Yahya, and M. I. A. Kadir. "Tensile Strength and Evenness of Kenaf/Polyester Blended Rotor-Spun Yarn." In Proceedings of the International Colloquium in Textile Engineering, Fashion, Apparel and Design 2014 (ICTEFAD 2014), 37–41. Singapore: Springer Singapore, 2014. http://dx.doi.org/10.1007/978-981-287-011-7_7.
Full textZhao, Bo. "Study on Hairiness of Polyester/Cotton Blended Yarn in Rotor Spinning Via Artificial Neural Network Theory." In Lecture Notes in Electrical Engineering, 487–94. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-4853-1_61.
Full textPlatt, Peter G. "Mingled Yarns and Hybrid Worlds: ‘We Taste Nothing Purely’, Measure for Measure, and All’s Well That Ends Well." In Shakespeare's Essays, 77–108. Edinburgh University Press, 2020. http://dx.doi.org/10.3366/edinburgh/9781474463409.003.0004.
Full textConference papers on the topic "Blended yarns"
Hudec, Robert, Miroslav Benco, Slavomir Matuska, Patrik Kamencay, and Martina Zachariasova. "Utilization of electro-conductive blended Ag/PA textile rayon yarns as data and power wires in an intelligent textile structures." In 2014 ELEKTRO. IEEE, 2014. http://dx.doi.org/10.1109/elektro.2014.6848982.
Full textBo, Zhao. "Prediction of Hairiness of Polyester/Viscose/Cotton Blended Ring Spinning Yarn." In 2010 International Conference on Optoelectronics and Image Processing (ICOIP). IEEE, 2010. http://dx.doi.org/10.1109/icoip.2010.263.
Full textZhao Bo. "Applications of artificial intelligence methods in the sizing hairiness of polyester/cotton blended yarn prediction." In 2010 International Conference on Computer Application and System Modeling (ICCASM 2010). IEEE, 2010. http://dx.doi.org/10.1109/iccasm.2010.5620472.
Full textZhang, Linlong, Lei Zhao, and Li Wei. "Dyeing Performance of Yellow Pigment from Ginkgo Biloba Leaves on the Cannabis/ Mulberry Fiber/Wool fiber Blended Yarn." In 5th International Conference on Advanced Design and Manufacturing Engineering. Paris, France: Atlantis Press, 2015. http://dx.doi.org/10.2991/icadme-15.2015.325.
Full textZhao Bo. "Applying artificial neural network technique and theory to study the hairiness of polyester/cotton blended yarn in warping process." In 2011 International Conference on Information Technology, Computer Engineering and Management Sciences (ICM 2011). IEEE, 2011. http://dx.doi.org/10.1109/icm.2011.387.
Full textReports on the topic "Blended yarns"
Mehta, Parvez, Mitchell Driggers, and Carole Winterhalter. Development of Flame Resistant Combat Uniform Fabrics Made from Long Staple Wool and Aramid Blend Yarn. Fort Belvoir, VA: Defense Technical Information Center, April 2013. http://dx.doi.org/10.21236/ada578994.
Full text