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Relevant bibliographies by topics / Spinning pumps (Textile machinery)

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Academic literature on the topic 'Spinning pumps (Textile machinery)'

Author: Grafiati

Published: 4 June 2021

Last updated: 7 February 2022

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Journal articles on the topic "Spinning pumps (Textile machinery)"

1

SUZUKI, HAJIME. "Progress of textile machinery. ( Part one ). Spinning machine." Sen'i Kikai Gakkaishi (Journal of the Textile Machinery Society of Japan) 50, no. 1 (1997): P45—P51. http://dx.doi.org/10.4188/transjtmsj.50.p45.

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2

Kuo, Chung-Feng Jeffrey, Chang-Chiun Huang, and Cheng-Han Yang. "Integration of multivariate control charts and decision tree classifier to determine the faults of the quality characteristic(s) of a melt spinning machine used in polypropylene as-spun fiber manufacturing Part I: The application of the Taguchi method and principal component analysis in the processing parameter optimization of the melt spinning process." Textile Research Journal 91, no. 15-16 (January 27, 2021): 1815–29. http://dx.doi.org/10.1177/0040517520988615.

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Melt spinning is the most extensively used method of fabricating polymeric fibers in the textile industry. This series of studies aimed to construct an automatic abnormality diagnosis system for polypropylene (PP) as-spun fiber produced by the melt spinning process. Part I of this study aimed to construct the processing parameter optimization for the PP as-spun fiber produced by the melt spinning machine. The product quality resulting from the processing parameters of the melt spinning process included six control factors: extruder temperature, gear pump temperature, die-head temperature, rotational speed of extruder, rotational speed of gear pump, and take-up speed. The quality characteristics included fiber fineness, breaking strength, breaking elongation, and modulus of resilience. The quality data were derived from the experiments, the design of which were based on the orthogonal array of the Taguchi method in order to calculate the signal-to-noise ratio, analysis of variance, and confidence interval. Principal component analysis was then applied to eliminate the multi-correlation of the output responses and transform the correlated responses into principal components, to obtain multi-quality optimum processing parameters. These optimum parameters, including the extruder temperature (180°C), gear pump temperature (220°C), die-head temperature (240°C), the rotational speed of the extruder (7.5 rpm), the rotational speed of the gear pump (15 rpm), and take-up speed (700 rpm) would later be used to build a prediction of an abnormality diagnosis system for identification of fault processing parameters in a melt spinning machine in Part II of this study.

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3

Wei, Lu. "Study on Traditional Textile Machinery in Southeast of Shanxi Province." Advanced Materials Research 443-444 (January 2012): 1091–95. http://dx.doi.org/10.4028/www.scientific.net/amr.443-444.1091.

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. The southeast of Shanxi province was famous for Lu silk in Ming and Qing dynasties, which mainly includes Ze and Lu regions. This thesis discuses the existing spinning wheels and looms in this region, and try to explore the historical development of textile machinery from Song dynasty to 1980s.It will contribute to the research on development of wooden looms in ancient China.

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4

Bensimon, Fabrice, and Christopher A. Whatley. "The Thread of Migration: A Scottish-French Linen and Jute Works and its Workers in France, c. 1845–c. 1870." Journal of Migration History 2, no. 1 (March 22, 2016): 120–47. http://dx.doi.org/10.1163/23519924-00201005.

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After 1815, European manufacturers in several sectors sought to reap the benefits of British technical superiority through the acquisition of British machinery and workers who could operate it. France was one of the beneficiaries of this transfer process. Along with iron, engineering, and tulle making, another British industry that established a French presence was linen and jute textile manufacturing. The authors present the results of joint research carried out in Scotland and France, focusing on a spinning mill established by a Dundee-Paris partnership in Ailly-sur-Somme in 1845. Much of the technical, managerial, and worker input came from Dundee, then becoming Britain’s – and for a time, the world’s – leading coarse textile manufacturing centre: ‘Juteopolis’. But the flow of expertise was not always unidirectional and there was cultural interchange too, in a process that by the 1870s had resulted in Ailly becoming one of the most important industrial establishments in France.

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5

Schmidt, James D. "“Restless Movements Characteristic of Childhood”: The Legal Construction of Child Labor in Nineteenth-Century Massachusetts." Law and History Review 23, no. 2 (2005): 315–50. http://dx.doi.org/10.1017/s0738248000000316.

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Elias Berdos had not yet reached the age of fourteen when he arrived in the United States in the first decade of the twentieth century. Three weeks after debarking, he applied to Tremont and Suffolk Mills in Lowell, Massachusetts and was put to work in the textile factory's spinning room, tending the mules as many boys his age did. Inexperienced at factory labor and unable to speak English, he ventured forth into the helter-skelter world of a cotton mill. About four weeks later, Elias stood in the spinning room, waiting for the workday to begin. With his back turned to the machinery, he rested his hand on a guard that covered the spinning frame's gears. When his hand slipped into the rotating metal, Elias joined the tens of thousands of workers injured in the process of American industrialization. Like many of those workers, Elias and his family sued the company for damages, but unlike many of his fellow laborers, Elias relied on Massachusetts's statutory prohibitions against child labor to maintain a cause of action. Losing in the lower courts, Elias appealed to the Supreme Judicial Court of Massachusetts. His case led the court to examine the development of child labor law in Massachusetts, looking into both its statutory genesis and legislative intent.

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6

Toskas, Georgios, Ronny Brünler, Heike Hund, Rolf-Dieter Hund, Martin Hild, Dilibaier Aibibu, and Chokri Cherif. "Pure chitosan microfibres for biomedical applications." Autex Research Journal 13, no. 4 (December 31, 2013): 134–40. http://dx.doi.org/10.2478/v10304-012-0041-5.

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Abstract Due to its excellent biocompatibility, Chitosan is a very promising material for degradable products in biomedical applications. The development of pure chitosan microfibre yarn with defined size and directional alignment has always remained a critical research objective. Only fibres of consistent quality can be manufactured into textile structures, such as nonwovens and knitted or woven fabrics. In an adapted, industrial scale wet spinning process, chitosan fibres can now be manufactured at the Institute of Textile Machinery and High Performance Material Technology at TU Dresden (ITM). The dissolving system, coagulation bath, washing bath and heating/drying were optimised in order to obtain pure chitosan fibres that possess an adequate tenacity. A high polymer concentration of 8.0–8.5% wt. is realised by regulating the dope-container temperature. The mechanical tests show that the fibres present very high average tensile force up to 34.3 N, tenacity up to 24.9 cN/tex and Young’s modulus up to 20.6 GPa, values much stronger than that of the most reported chitosan fibres. The fibres were processed into 3D nonwoven structures and stable knitted and woven textile fabrics. The mechanical properties of the fibres and fabrics enable its usage as textile scaffolds in regenerative medicine. Due to the osteoconductive properties of chitosan, promising fields of application include cartilage and bone tissue engineering.

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7

Günaydin, Gizem Karakan, Ali Serkan Soydan, and Sema Palamutçu. "Evaluation of Cotton Fibre Properties in Compact Yarn Spinning Processes and Investigation of Fibre and Yarn Properties." Fibres and Textiles in Eastern Europe 26, no. 3(129) (June 30, 2018): 23–34. http://dx.doi.org/10.5604/01.3001.0011.7299.

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Fibre properties are influential factors for yarn properties. Cotton, whose physical properties vary depending on the cultivation region, is still a very common fibre used in the textile industry. Properties such as fibre length, fineness, strength and maturity affect yarn tensility, evenness, imperfections and hairiness. Four different 100% cotton blends were used as raw material (American cotton, Aegean cotton, Urfa cotton, Greek cotton) to be converted into 20 tex compact yarns separately. HVI parameters of each blend type starting from the bale until the 2nd drawing passage machine revealed that yarn processing stages and machinery are influential factors for fibre the properties of fibres that are produced on a spinning line. Additionally ANOVA tests supported the idea that the evenness, tensility, yarn imperfections, and hairiness parameter of yarns produced from various cotton blends were statistically different. Principal Component Analyses (PCA) and the Correlation Matrix were also applied in order to analyse the relationship between fibre properties and compact yarn properties of different blends.

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8

SHIMADA, Norihiko. "Learning from the Industrial Heritage of Textile Machinery The Toyota Commemorative Museum of Industry and Technology Cotton Spinning and Weaving Machines Exhibit." Journal of the Society of Mechanical Engineers 110, no. 1061 (2007): 290–93. http://dx.doi.org/10.1299/jsmemag.110.1061_290.

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9

SHARMA, SARITA. "ENERGY MANAGEMENT IN TEXTILE INDUSTRY." International Journal of Power System Operation and Energy Management, July 2013, 191–95. http://dx.doi.org/10.47893/ijpsoem.2013.1087.

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Energy is one of the most important ingredients in any industrial activity. The availability is not infinite however. Energy crisis globally, as well as high cost of fuels resulted in more activities to conserve energy to maximum extent. Energy crisis globally, as well as high cost of fuels resulted in more activities to conserve energy to maximum extent. The textile industry is one of the major energy consuming industries and retains a record of the lowest efficiency in energy utilization. About 23% energy is consumed in weaving, 34% in spinning, 38% in chemical processing and another 5% for miscellaneous purposes. In general, energy in the textile industry is mostly used in the form of: electricity, as a common power source for machinery, cooling & temperature control system, lighting, equipment etc.; oil as a full for boilers which generate steam, liquefied petroleum gas, coal. And this has made pathway to conservation of energy which can be affected through process and machinery modifications and implementation of technological advancements relating to process optimization as well as development of newer methods to meet the challenge of substantial energy saving in textile wet processing.

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10

"Development of Safety Performance using Scoring Technique in Textile Industries." International Journal of Engineering and Advanced Technology 9, no. 1S4 (December 30, 2019): 847–51. http://dx.doi.org/10.35940/ijeat.a1055.1291s419.

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The objective of the work focus to determine the potential safety factors that directed the triumph of a Human factors safety Management system for Textile workers. The number of accidents among textile workers and the level of responsiveness on problems concerning safety were also determined. The Spinning mills ranged from high noise annoyance areas, rotating machineries and Manual Material handling areas. The sample size was 75 in each sub criteria workers’s. From the survey it was found that the most potential safety factor was personal awareness followed closely by statement. Suggestions and recommendations on machinery design and improved safety work practices and measures to improve the efficiency and yield of textile workers were proposed. Management was advised to get their labours response better informed about safety matters. The Investigation survey identify the ineffective management involvement is the main causes of creating safety deficiency inside the textile plants. About 40- 80% of peoples recorded the same reasons to improve the management involvement in all the safety aspects. Very few of the people delivered regarding origin of unsafe acts and condition due to their behaviour of worker inside the workplace related to Human error. This works presents the improved model for management of textile plants in upcoming future investigations.

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Books on the topic "Spinning pumps (Textile machinery)"

1

Ratnam, T. V. Maintenance management in spinning. 4th ed. Coimbatore: South India Textile Research Association, 1999.

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2

Ratnam, T. V. Maintenance management in spinning. Coimbatore: South India Textile Research Association, 1992.

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3

Christopher, Ward. Capitalism's bequest: The labour process on selfacting mules in NEP Russia. [Colchester, Eng.]: University of Essex, Russian & Soviet Studies Centre, 1985.

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4

Advances In Yarn Spinning Technology. Woodhead Publishing, 2010.

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Book chapters on the topic "Spinning pumps (Textile machinery)"

1

Kumar, L. Ashok, and M. Senthilkumar. "Instrumentation and Control Systems in Ring and Rotor Spinning." In Automation in Textile Machinery, 205–31. CRC Press, 2018. http://dx.doi.org/10.1201/9781315155333-7.

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2

Gokarneshan, N., B. Varadarajan, and C. B. Senthil Kumar. "Calculations in the spinning process." In Mechanics and Calculations of Textile Machinery, 229–71. Elsevier, 2013. http://dx.doi.org/10.1533/9780857095527.2.229.

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