Relevant bibliographies by topics / Fabric knitting

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Fabric knitting'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 February 2022

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Journal articles on the topic "Fabric knitting"

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Song, Xiao Xia, and Zheng Yan Xu. "Measurement and Analysis of Knitting Fabric Pressure." Applied Mechanics and Materials 268-270 (December 2012): 1637–43. http://dx.doi.org/10.4028/www.scientific.net/amm.268-270.1637.

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Nowadays people’s requirement about garment comfort is improved. Pressure comfort has been an important part of garment comfort. The structure and performance of knitting fabrics are changed after they are made into clothes with different pressure. The measurement of garment pressure is difficult, but the measurement of fabric performance is easier. So the relationship between fabric performance and pressure comfort is studied in this paper. 8 kinds of knitting fabrics are selected to measure mechanical performance of fabric, such as flexible performance, cut performance, bend performance, compress performance and interface performance. Fabric pressure simulation apparatus is used to simulate fabric pressure variation on elbow and knee. And the pressure is measured and recorded during the deformation of fabric. Same eight kinds of knitting fabrics are used to make basic-style knitwear. The pressure is measured by mannequin pressure testing system
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Liu, Yuan Jun, and Xiao Ming Zhao. "The Research on the Dielectric Constant of Polyester Knitted Fabrics." Advanced Materials Research 1089 (January 2015): 42–45. http://dx.doi.org/10.4028/www.scientific.net/amr.1089.42.

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The influence on polyester knitted fabrics’ dielectric constant of each fabric organization structure of knitted fabrics were discussed by a single factor test method, and made a good choice from various polyester knitted fabric knitting parameters so as to the polyester knitted fabric was provided with the maximum real part and imaginary part of the dielectric constant. The results showed that when the structure of polyester knitted fabric was 2+2 rib, polyester knitted fabric had a good microwave absorbing property in these knitting parameters.
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Xia, Xiu Li. "Development of Knitting Protective Sleeve." Applied Mechanics and Materials 184-185 (June 2012): 1389–93. http://dx.doi.org/10.4028/www.scientific.net/amm.184-185.1389.

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Knitted protective sleeve mainly deals with the functional development . Using molding technology of knitted fabrics and special coating technology, implemented a full-shaped cuff of production technology and specific coating technology. The results show that the shaped cuff reduces the disadvantages caused by sewing, high fabric elasticity; special coating and coating techniques, reducing the load, at the same time so that the fabric is beautiful, has better properties of waterproof and moisture permeability, improves the wearing comfort.
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Li, Xiaoying, Gaoming Jiang, Xiaolin Nie, Pibo Ma, and Zhe Gao. "Knitting Technologies And Tensile Properties Of A Novel Curved Flat-Knitted Three-Dimensional Spacer Fabrics." Autex Research Journal 15, no. 3 (2015): 191–97. http://dx.doi.org/10.1515/aut-2015-0006.

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AbstractThis paper introduces a knitting technique for making innovative curved three-dimensional (3D) spacer fabrics by the computer flat-knitting machine. During manufacturing, a number of reinforcement yarns made of aramid fibres are inserted into 3D spacer fabrics along the weft direction to enhance the fabric tensile properties. Curved, flat-knitted 3D spacer fabrics with different angles (in the warp direction) were also developed. Tensile tests were carried out in the weft and warp directions for the two spacer fabrics (with and without reinforcement yarns), and their stress–strain curves were compared. The results showed that the reinforcement yarns can reduce the fabric deformation and improve tensile stress and dimensional stability of 3D spacer fabrics. This research can help the further study of 3D spacer fabric when applied to composites.
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Jin, Zi Min, Dan Zhou, Yu Xiu Yan, and Jian Wei Tao. "The Study of Technology and DSC Temperature Adjusting Performance on Outlast Viscose Seamless Knitted Fabric." Advanced Materials Research 821-822 (September 2013): 219–22. http://dx.doi.org/10.4028/www.scientific.net/amr.821-822.219.

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Combined with seamless knitting technology, the temperature adjusting performance of Outlast viscose seamless knitted fabric is researched. Accepting differential scanning calorimetry (DSC), the temperature adjusting performance tests of samples determined by the seamless knitting process design are done. Comparative analysis of endothermic and exothermic temperature ranges, peak temperatures, influence of interwoven ratios and weave structures on fabric ability of heat absorption, accumulation and release is studied. DSC results show that Outlast viscose seamless knitted fabrics have good temperature adjusting performance, provide a certain value on improving the wearing comfort of seamless knitted fabric.
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Nazir, Ahsan, Tanveer Hussain, Faheem Ahmad, and Sajid Faheem. "Effect of Knitting Parameters on Moisture Management and Air Permeability of Interlock Fabrics." Autex Research Journal 14, no. 1 (2014): 39–46. http://dx.doi.org/10.2478/v10304-012-0045-1.

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Abstract The aim of this study was to investigate the effect of knitting parameters on the moisture management and air permeability of the interlock fabrics. Samples were produced at two different knitting gauges, each with three different stitch lengths. It was found that the fabric mass per square metre increases by increasing machine gauge and decreasing the stitch length, whereas the fabric thickness and porosity increase at these settings. It was further concluded that the loosely knitted fabric samples with higher amount of entrapped air exhibit good air permeability but poor moisture management properties.
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Wu, Jiahong, Zimin Jin, Jing Jin, Yuxiu Yan, and Jianwei Tao. "Study on the tensile modulus of seamless fabric and tight compression finite element modeling." Textile Research Journal 90, no. 1 (2019): 110–22. http://dx.doi.org/10.1177/0040517519859931.

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Tight compression garments are able to exert pressure on the surface of the human body, helping to relieve muscle fatigue and accelerate recovery. In order to study the effect of the tensile property on fabric pressure on the human body, by response surface methodology, in this paper 13 seamless knitting fabrics were designed with various knitting parameters, including the linear density of bare elastic yarn (33.3, 55.6 and 77.8 dtex), yarn feed tension (0.015, 0.030 and 0.045 cN/dtex) and fabric structure (1 × 1 mock rib, cross-float and plain stitch). Through tensile testing, the tensile moduli of 13 fabrics were measured and the effect of knitting parameters was analyzed. In addition, a finite element method was used to simulate the tight pressure on the human thigh of fabrics with different tensile moduli with ANSYS workbench 19.0. Furthermore, an actual pressure experiment was designed to prove the accuracy and validation of the simulation. The result showed that the effect of yarn feed tension on the elasticity modulus was the least significant, while linear density and structure had a great influence. A quadratic response surface regression model of the elasticity modulus was created, which could calculate a bare elastic yarn knitting fabric by using its parameters. It was proved that the finite element model was able to predict pressure accurately. Through the pressure numerical simulation of three fabric samples with different tensile moduli (0.111, 0.253 and 0.523 MPa), it was indicated that for fabric with a low tensile modulus, its tight compression merely changed as elongation increased; however, for fabric with a high tensile modulus, tight compression was promoted as elongation increased.
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Wang, Wei Zhen, Xiao Nong Qian, Ya Zhen Wang, and Dan Li. "Garment Production Process Optimization Based on the Splicing of Knitting and Tatting Fabrics." Advanced Materials Research 680 (April 2013): 577–81. http://dx.doi.org/10.4028/www.scientific.net/amr.680.577.

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Based on the splicing of knitting and tatting fabrics and the optimization of process realization route, the author tries to improve the drawbacks in traditional splicing of knitting and tatting fabrics in terms of process technology and thus extend their respective advantageous properties. Through the analysis of fabric properties difference, integration of structural characteristics of parts, optimization of sewing process and post-production process reengineering, the author proposes the prerequisites and principles related to the splicing of two fabrics, and discusses the common problems in the splicing of knitting and tatting fabrics and specific process optimization route.
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Afzal, Ali, Sheraz Ahmad, Abher Rasheed, Muhammad Mohsin, Faheem Ahmad, and Yasir Nawab. "Characterization and statistical modelling of thermal resistance of cotton/polyester blended double layer interlock knitted fabrics." Thermal Science 21, no. 6 Part A (2017): 2393–403. http://dx.doi.org/10.2298/tsci150520201a.

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The aim of this study was to analyse and model the effect of knitting parameters on the thermal resistance of cotton/polyester double layer interlock knitted fabrics. Fabric samples of areal densities ranging from 310-495 g/m2 were knitted using yarns of three different cotton/polyester blends, each of two different linear densities by systematically varying knitting loop lengths for achieving different cover factors. It was found that by changing the polyester content in the inner and outer fabric layer from 40 to 65% in the double layer knitted fabric has statistically significant effect on the fabric thermal resistance. Fabric thermal resistance increased with increase in relative specific heat of outer fabric layer, yarn linear density, loop length, and fabric thickness while decrease in fabric areal density. It was concluded that response surface regression modelling could be successfully used for the prediction of thermal resistance of double layer interlock knitted fabrics. The model was validated by unseen data set and it was found that the actual and predicted values were in good agreement with each other with less than 10% absolute error. Sensitivity analysis was also performed to find out the relative contribution of each input parameter on the air permeability of the double layer interlock knitted fabrics.
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Kan, C. W. "A Study on Ultraviolet Protection of 100% Cotton Knitted Fabric: Effect of Fabric Parameters." Scientific World Journal 2014 (2014): 1–10. http://dx.doi.org/10.1155/2014/506049.

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The effect of fabric parameters such as weight, thickness, and stitch density on the ultraviolet (UV) protection of knitted fabrics was studied. Different knitting structures such as plain, pineapple, lacoste, and other combinations of different knitting stitches of knit, tuck, and miss as well as half milano, full milano, half cardigan, full cardigan, 1 × 1 rib, and interlock were prepared. Experimental results revealed that weight was the most important factor that affected UV protection while thickness and stitch density were not the leading factor in determining UV protection.
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Dissertations / Theses on the topic "Fabric knitting"

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Myat, Thant. "Knitting of Nature into an Urban Fabric: A Riverfront Development." [Tampa, Fla] : University of South Florida, 2008. http://purl.fcla.edu/usf/dc/et/SFE0002718.

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Lek-Uthai, J. "Real-time data monitoring on circular knitting to improve process efficiency and fabric quality." Thesis, University of Manchester, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.488368.

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The quality of the knitted fabric is an important factor in the knitwear industry. On circular knitting machines the fabric quality is improved by using the positive storage feeding device which delivers the length of the yam to the needles in order to form stitches at a constant rate. Yam tension, yam properties and elongation of the yam are important parameters influencing course length in the knitted fabric. However, course length is the most important parameter that determines the dimensions of the knitted fabrics. Therefore, a mathematical analysis was carried out to study the feasibility of using yarn length measurement in order to improve the fabric quality and the process efficiency. A PC based system was created to monitor important information such as yam run-in length, running machine condition, yam breakage, needle breakage, machine and time performance during the normal operation. An addition sensor was installed in order to determine the above parameters. Special hardware and software were developed for monitoring and analysing the knitting process parameters in real-time.
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Akinsade, Olumide Oseyemi. "Back and forth: (re) weaving and (re) knitting Locust Point into the fabric of Baltimore City." College Park, Md. : University of Maryland, 2004. http://hdl.handle.net/1903/2312.

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Thesis (M.Arch.) -- University of Maryland, College Park, 2004.<br>Thesis research directed by: Architecture. Title from t.p. of PDF. Includes bibliographical references. Published by UMI Dissertation Services, Ann Arbor, Mich. Also available in paper.
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Paleologos, Esther, and esther paleologos@rmit edu au. "An exploration of new processes and products for knitted textiles: this research will explore the combination of standard and non-standard fibres and finishing processes to create three-dimensional and sculptural knitted fabric structures, while expanding the potential of domestic machine knitting to be viewed as an art form." RMIT University. Fashion & Textiles, 2010. http://adt.lib.rmit.edu.au/adt/public/adt-VIT20100329.143129.

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Contemporary knitting over the past decade has experienced a recent resurgence in cultural interest and technical exploration. This research project aims to identify, through personal practice, the implications of knitting as undefined, removed from the boundaries of product. It is the dissolving of the lines between design, art and craft and exploring the domestically machine knitted textile via the use of materials and the inherent qualities of the fabric which are the driving factors of this research. It is through this exploration that my personal and creative process is diversified. The traditional connotations of knitting are historical, social and cultural, in particular hand knitting. Childhood memories of mothers and grandmothers knitting out of necessity, for clothing, often evoke feelings of safety, warmth and comfort. This familiarity of the looped stitches and understanding of the knit as garment binds knitting to fashion. Industrial knitting process, as scale of stitch is reduced, begins to remove this familiarity and creates an anonymity of structure and process, for example jersey knits used for t-shirts. This instant recognition for knitting as clothing is part of the design process where-by knitted fabrics work in unison with product. It is this boundary that has defined my professional practice designing for knitwear. This research involves a more experimental and fluid approach to producing the textile, considering the qualities and potential of the structure as something to celebrate in its own form. Designers such as Issey Miyake, Hussein Chalayan and the artist Rosmarie Trockel have been influential in taking fashion concepts into the gallery, often knitted. This movement of making conceptual and political statements, especially in the case of the industrially knitted pieces by Trockel, was a step to question the traditional and feminist perceptions of knitting and using the process as a material to create art. While these exhibitions explored the knitted textile in the form of fashion garment, the importance of diversifying the knitted cloth and displaying conceptual pieces is a major influence on this research. Also the more recent exhibition 'Radical Lace and Subversive Knitting', (Museum of Arts & Design New York 2007), has allowed for a reinvigorated forum for constructed textiles to be viewed as object, new product or purely as spatial explorations of structure. The impact of these ideas has allowed for the consideration of the textile being stripped back further and to remove the instant connot ation of product application. Exploration of materials, knitted structures and the manipulation of fabric without the constraints of identified product is the impetus of this project. The evolution of the outcomes is instrumental to the reactions of fibres, stitch and interplays of positive and negative space, while suggestions of product are accidental and created by the knitted form as it is removed from the machine. A personal interest in exploiting the knitted structures potential to possess transparency and opacity, become sculptural and changeable by hand have influenced the choices of material and stitch combination. This experimentation has informed my personal practice and the involved process of making.
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Husain, Muhammad Dawood. "Development of temperature sensing fabric." Thesis, University of Manchester, 2012. https://www.research.manchester.ac.uk/portal/en/theses/development-of-temperature-sensing-fabric(0e5e8367-c3b2-4cff-bcc9-f32fac97b50f).html.

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Human body temperature is an important indicator of physical performance and condition in terms of comfort, heat or cold stress. The aim of this research was to develop Temperature Sensing Fabric (TSF) for continuous temperature measurement in healthcare applications. The study covers the development and manufacture of TSF by embedding fine metallic wire into the structure of textile material using a commercial computerised knitting machine. The operational principle of TSF is based on the inherent propensity of a metal wire to respond to changes in temperature with variation in its electrical resistance. Over 60 TSF samples were developed with combinations of different sensing elements, two inlay densities and highly textured polyester yarn as the base material. TSF samples were created using either bare or insulated wires with a range of diameters from 50 to 150 μm and metal wires of nickel, copper, tungsten, and nickel coated copper. In order to investigate the Temperature-Resistance (T-R) relationship of TSF samples for calibration purposes, a customised test rig was developed and monitoring software was created in the LabVIEW environment, to record the temperature and resistance signals simultaneously. TSF samples were tested in various thermal environments, under laboratory conditions and in practical wear trials, to analyse the relationship between the temperature and resistance of the sensing fabric and to develop base line specifications such as sensitivity, resistance ratio, precision, nominal resistance, and response time; the influence of external parameters such as humidity and strain were also monitored. The regression uncertainty was found to be less than in ±0.1°C; the repeatability uncertainty was found to be less than ±0.5°C; the manufacturing uncertainty in terms of nominal resistance was found to be ± 2% from its mean. The experimental T-R relationship of TSF was validated by modelling in the thermo-electrical domain in both steady and transient states. A maximum error of 0.2°C was found between the experimental and modelled T-R relationships. TSF samples made with bare wire sensing elements showed slight variations in their resistance during strain tests, however, samples made with insulated sensing elements did not demonstrate any detectable strain-dependent-resistance error. The overall thermal response of TSF was found to be affected by basal fabric thickness and mass; the effect of RH was not found to be significant. TSF samples with higher-resistance sensing elements performed better than lower-resistance types. Furthermore, TSF samples made using insulated wire were more straightforward to manufacture because of their increased tensile strength and exhibited better sensing performance than samples made with bare wire. In all the human body wear trials, under steady-state and dynamic conditions both sensors followed the same trends and exhibited similar movement artifacts. When layers of clothing were worn over the sensors, the difference between the response of the TSF and a high-precision reference temperature were reduced by the improved isothermal conditions near the measurement site.
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Mermelstein, Sylvia P. "Aspects of the design of a circular warp knitting machine." Thesis, Loughborough University, 2002. https://dspace.lboro.ac.uk/2134/34199.

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The warp knitting machine market has long been dominated by large-scale flat models, which have been steadily developed. Tubular fabrics are generally made in a special version of flat warp knitting machines containing two needle bars, one for each side of the tube, joined on the sides by yarns knitting alternatively on each bar. Warp knitting technology has failed to enter the circular knitting industry, dominated by weft knitting, due to its complexity in achieving warp knit structures in circular form. This thesis presents the design, synthesis, manufacture and test of an innovative method of producing tubular warp knitting fabrics, using a circular format rather than flat needle bars. This novel concept opens up many industrial applications from medical textiles to fruit packaging.
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Qureshi, Waqas. "Integrating Conductive Threads into Different Knitting Construction by Flat Knitting Machine to Create Stretch Sensitive Fabrics for Breathing Monitoring." Thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-20938.

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During the last decade medical applications of textile sensors have been growing rapidly and textile sensors are the focal research point for many sensor projects. Textile sensors are still not available as a mainstream product to replace conventional electric sensors and electrodes. Textile sensors can be integrated in a textile garment to measure vital signs of a human being. In this regard stretch sensors are able to measure breathing rate of a person. In this project we use seamless knitting technique to make stretch sensors using conductive fibers. The resistance difference between stretching and relaxing of these sensors gives a pattern for human breathing. Four knitting structures with different conductive fibers are made and tested with cyclic tester to construct a graph between resistance and time to find the knitting structure which gives the best results. Tests are also done to check the results after washing. These sensors can be used in breathing monitoring of patients during daily life.<br>Program: Master Programme in Textile Technology
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QURESHI, WAQAS. "Integrating Conductive Threads into Different Knitting Construction by Flat Knitting Machine to Create Stretch Sensitive Fabrics for Breathing Monitoring." Thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-17449.

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During the last decade medical applications of textile sensors have been growing rapidly and textile sensors are the focal research point for many sensor projects. Textile sensors are still not available as a mainstream product to replace conventional electric sensors and electrodes. Textile sensors can be integrated in a textile garment to measure vital signs of a human being. In this regard stretch sensors are able to measure breathing rate of a person. In this project we use seamless knitting technique to make stretch sensors using conductive fibers. The resistance difference between stretching and relaxing of these sensors gives a pattern for human breathing. Four knitting structures with different conductive fibers are made and tested with cyclic tester to construct a graph between resistance and time to find the knitting structure which gives the best results. Tests are also done to check the results after washing. These sensors can be used in breathing monitoring of patients during daily life.<br>Program: Master programme in Textile Technology
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Janetzko, Steffen, Thomas Gries, and Till Büttner. "Preforming von textilen Bewehrungsstrukturen für Sandwichbauteile." Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2009. http://nbn-resolving.de/urn:nbn:de:bsz:14-ds-1244042345137-27083.

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Dimensionierung und Konstruktion von Bewehrungstextilien für die Anwendung in Textilbeton werden in Abhängigkeit von der resultierenden Last im Bauteil durchgeführt. Um aus der Vielzahl möglicher Varianten von Bewehrungsstrukturen die passenden auszuwählen, wird ein reduziertes Beschreibungsschema zur Auswahl herangezogen. Als Anwendungsbeispiel wird eine komplexe Bewehrungsstruktur beschrieben, die für dünnwandige, selbsttragende Sandwichelemente genutzt wird. Die Sandwichelemente werden als Wandund Dachkonstruktion für ein 20 m² großes modulares Gebäude eingesetzt. Die Bewehrungsstrategie für die Elemente sowie die Herstellungstechnik und Prüfverfahren für die Bewehrung werden beschrieben. Zur Langzeitüberwachung der Sandwichelemente wird ein Monitoring-System verwendet.
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Panduranga, Shahu Sharath. "Knittin of carbon and Dyneema® fibres to fit for contour sahpes in composites." Thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-10341.

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Textile process and textile structures that are suitable for composites are carefully studied and chosen to have weft knitted fabrics. The aim of this research is to knit the carbon and Dyneema® fibres in circular weft knitting to fit contour shapes. Carbon/Dyneema® can also be knitted in warp knitting machines to get properties in multi axial direction. But the fabric was flat and can be used only for 2D shape products which are having less drapabiity. According to previous research, weft knitting is the best suitable for complex preforms. Before knitting these fibres properties were studied in order to avoid the damage to the carbon fibres. The carbon fibres have high bending rigidity, low resistance to friction and are very brittle. A small damage to the carbon fibre in knitting subsequently affect directly on the composite properties. The strongest manmade fibre manufactured till date is Dyneema® and these fibres could be used in composites due to its performance, properties and light weight. But, the Dyneema® fibres are expensive when compared to common polyester, so polyester fibres are used to compare the properties and cost performance ratio. The critical bending of the carbon fibres causes friction between the fibres and also between fibre and machine. This was considered carefully during the knitting of carbon fibres and the idea chosen is mentioned in this thesis. Between the two layers of Dyneema®/polyester, carbon fibres are laid circularly in unidirectional and in un-crimped condition. This makes the carbon yarn to possess good mechanical properties. The 2 layers of Dyneema®/polyester fibres exchange the loops at certain points to increase the inter-laminar strength and decrease the carbon fibre distortion. This structure helps to withstand external load. It is also lighter than the carbon composite with additional properties. This makes much more space in the future for the Dyneema® fibres in the 3D carbon composite manufacturing. The internal carbon fibres are fully covered by the Dyneema® fibres to withstand the external impact load and not to damage the carbon fibres. So the loop length, stitch density, fibre volume fractions are considered before knitting.
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Books on the topic "Fabric knitting"

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Frost, Jean. Jean Frost jackets: Fabric, fit & finish for today's knits. XRX Books, 2003.

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Knitted fabric rugs: 28 colorful designs for crafters of every level. Storey Publishing, 2015.

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Hovgaard, Elspa Maria. Warp knitting of staple-fibre yarns and related fabric properties. University of Manchester, 1993.

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Wren, Ross, ed. Changing patterns: Discovering the fabric of your creativity. Hay House, 2006.

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Strip & knit with style: Create fabric-yarn, use cotton, wool, fleece & more : knit 16 projects for you & your home. C&T Pub., 2009.

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Gajjar, Bharat J. Warp knit fabrics technologies. Emerald Ink Pub., 2007.

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Nilsson, Marie I. A study of knitting spacer fabrics on a modern electronic flat-bed knitting machine. UMIST, 1998.

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Julia, Weissman, ed. A machine knitter's guide to creating fabrics: Jacquard, lace, intarsia, ripple and more. Lark Books, 1986.

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Wilson, Sadye Tune. Textile arts index 1950-1987: Selected weaving, spinning, dyeing, knitting, fiber periodicals. Tunstede, 1988.

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Davidson, Jackson Ruth, ed. Textile arts index, 1950-1987: Selected weaving, spinning, dyeing, knitting, fiber periodicals. Tungstede, 1988.

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Book chapters on the topic "Fabric knitting"

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Chottikampon, Kontawat, Shunyu Tang, Suchalinee Mathurosemontri, et al. "Comparison Knitting Skills Between Experts and Non-experts by Measurement of the Fabric Quality." In Digital Human Modeling: Applications in Health, Safety, Ergonomics and Risk Management. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-40247-5_39.

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Trümper, Wolfgang. "Semi-finished Weft Knitted Fabrics and Weft Knitting Techniques." In Textile Materials for Lightweight Constructions. Springer Berlin Heidelberg, 2016. http://dx.doi.org/10.1007/978-3-662-46341-3_6.

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"Circular fabric knitting." In Knitting Technology. CRC Press, 2001. http://dx.doi.org/10.1201/9781439833087.ch13.

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Spencer, David J. "Circular fabric knitting." In Knitting Technology. Elsevier, 2001. http://dx.doi.org/10.1533/9781855737556.145.

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Duhovic, M., and D. Bhattacharyya. "Knitted fabric composites." In Advances in Knitting Technology. Elsevier, 2011. http://dx.doi.org/10.1533/9780857090621.2.193.

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Gajjar, Bharat J. "Advances in warp knitted fabric production." In Advances in Knitting Technology. Elsevier, 2011. http://dx.doi.org/10.1533/9780857090621.2.110.

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"Weft knitting, weft-knitted fabric and knitwear design." In Handbook of Textile Design. CRC Press, 2001. http://dx.doi.org/10.1201/9781439823101.ch10.

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Wilson, Jacquie. "Weft knitting, weft-knitted fabric and knitwear design." In Handbook of Textile Design. Elsevier, 2001. http://dx.doi.org/10.1533/9781855737532.93.

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Eden, Jeff. "Negotiating Stalin’s Tolerance." In God Save the USSR. Oxford University Press, 2021. http://dx.doi.org/10.1093/oso/9780190076276.003.0004.

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This chapter shows that wartime patriotism among Soviet religious populations was developed not merely through rousing speeches and policy concessions; it was developed by knitting patriotic activities and devotional activities together so tightly that it was not clear where one ended and the other began. By channeling traditional Muslim charity (zakat) payments into the war effort, for example, Muslim charity became both pious and patriotic; by weaving patriotism into the fabric of Friday sermons, visiting a newly reopened mosque allowed Muslims to embody and enact that line quoted so often by the leading muftis: “Love for country is a part of faith.” In short, the war era was an age in which Islamic devotion itself became—for some at least—an expression of Soviet patriotism.
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"Speciality fabrics and machines." In Knitting Technology. CRC Press, 2001. http://dx.doi.org/10.1201/9781439833087.ch14.

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Conference papers on the topic "Fabric knitting"

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Hanbay, Kazim, Muhammed Fatih Talu, Omer Faruk Ozguven, and Dursun Ozturk. "Fabric defect detection methods for circular knitting machines." In 2015 23th Signal Processing and Communications Applications Conference (SIU). IEEE, 2015. http://dx.doi.org/10.1109/siu.2015.7129932.

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2

Hu, Guojun, Peimin Wei, and Weiqiang Zhao. "Design of Fabric Pulling Mechanism of the Computerized Knitting Machine." In 2011 International Conference on Measuring Technology and Mechatronics Automation (ICMTMA). IEEE, 2011. http://dx.doi.org/10.1109/icmtma.2011.241.

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3

Elragal, Hassan M. "Neuro-Fuzzy Fabric Defect Detection and Classification for Knitting Machine." In Proceedings of the Twenty Third National Radio Science Conference (NRSC'2006). IEEE, 2006. http://dx.doi.org/10.1109/nrsc.2006.386359.

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4

Jin, Zimin, Jieya Zhou, Qiang Fu, and Jianwei Tao. "Appearance Properties of Seamless Knitting Fabric Made of Triangular Hollow Nylon." In 2011 International Conference on Management and Service Science (MASS 2011). IEEE, 2011. http://dx.doi.org/10.1109/icmss.2011.5999405.

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5

Neves, M. M., J. L. Cunha, P. M. Arezes, et al. "IN2TEC: A Multidisciplinary Research Project Involving Researchers, Students and Industry." In ASME 2006 International Mechanical Engineering Congress and Exposition. ASMEDC, 2006. http://dx.doi.org/10.1115/imece2006-14916.

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Bearing in mind that undergraduate students must get involved in research and that local industry must be a university partner, the School of Engineering, from University of Minho, has taken the initiative in funding some technical research projects in specifically defined areas (http://www.eng.uminho.pt). In this context, one of the projects founded concerns the development and testing of functional knitting which can be used with success in the lining of a shoe. The study of shoe comfort is of great importance to sport and leisure footwear manufactures, because in these particular situations, moisture disposal over a number of hours is a main problem. Three structures which combine different raw materials (soybean fiber, bamboo fiber, corn fiber, cotton, polypropylene and polyester) have been manufactured by a local textile factory. A group of students mainly from Mechanical and Textile Engineering classes are currently testing these knitting in terms of their water vapor and air permeability and other physical parameters at the laboratory. Tests with a thermal manikin have been used to measure its thermal insulation. A transient model for heat and mass transfer in a fabric has been implemented. From the solution, temperature and vapor density profiles in the fabric thickness can be obtained as well as, the amount of water dissolved in the fabric. This model has been integrated with an existing human thermal comfort model. Thermal comfort surveys are now being made at the Ergonomics Laboratory of the University of Minho with undergraduate Mechanical and Industrial Engineering students, wearing sport shoes manufactured by a local footwear factory, and these results can be compared using statistical analysis, with the experimental and numerical results already obtained.
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Meng, Jiaguang, Guanxiong Qiu, Tao Xue, Yanfen He, and Jianjun Pan. "Research and Development of Nanometer Material Antimite and Anti-bacteria Knitting Fabric with Cotton Fiber." In 2006 1st IEEE International Conference on Nano/Micro Engineered and Molecular Systems. IEEE, 2006. http://dx.doi.org/10.1109/nems.2006.334789.

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7

Sun, Yao, and Hai-ru Long. "Detection of Weft Knitting Fabric Defects Based on Windowed Texture Information And Threshold Segmentation by CNN." In 2009 International Conference on Digital Image Processing, ICDIP. IEEE, 2009. http://dx.doi.org/10.1109/icdip.2009.33.

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8

Hossain, A. K. M. Mobarok, Md Imranul Islam, and Sarif U. Patwary. "Effect of Yarn Delivery and Couliering Depth on Yarn Input Tension and Fabric Defects for Positive-Feed Based Circular Knitting Machines." In Pivoting for the Pandemic. Iowa State University Digital Press, 2020. http://dx.doi.org/10.31274/itaa.13047.

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9

Koon, Henry, Jack Laven, and Julianna Abel. "Manufacture of Ultra-Dense Knitted Superelastic Structures." In ASME 2018 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/smasis2018-8225.

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Knitted Textiles made from Nickel-Titanium (NiTi) shape memory alloy wires are a new structural element with enhanced properties for a variety of applications. Potential advantages of this structural form include enhanced bending flexibility, tailorable in-plane, and through-thickness mechanical performance, and energy absorption and damping. Inspection of the knit pattern reveals a repeating cell structure of interlocking loops. Because of this repeating structure, knits can be evaluated as cellular structures that leverage their loop-based architecture for mechanical robustness and flexibility. The flexibility and robustness of the structure can be further enhanced by manufacturing with superelastic NiTi. The stiffness of superelastic NiTi, however, makes traditional knit manufacturing techniques inadequate, so knit manufacturing in this research is aided by shape setting the superelastic wire to a predefined pattern mimicking the natural curve of a strand within a knit fabric. This predefined shape-set geometry determines the outcome of the knit’s mechanical performance and tunes the mechanical properties. In this research, the impact of the shape setting process on the material itself is explored through axial loading tests to quantify the effect that heat treatment has on a knit sample. A means of continuously shape setting and feeding the wire into traditional knitting machines is described. These processes lend themselves to mass production and build upon previous textile manufacturing technologies. This research also proposes an empirical exploration of superelastic NiTi knit mechanical performance and several new techniques for manufacturing such knits with adjustable knit parameters. Displacement-controlled axial loading tests in the vertical (wale) direction determined the recoverability of each knit sample in the research and were iteratively increased until failure resulted. Knit samples showed recoverable axial strains of 65–140%, which could be moderately altered based on knit pattern and loop parameters. Furthermore, this research demonstrates that improving the density of the knit increases the stiffness of the knit without any loss in recoverable strains. These results highlight the potential of this unique structural architecture that could be used to design fabrics with adjustable mechanical properties, expanding the design space for aerospace structures, medical devices, and consumer products.
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10

"Session details: Session 1A: Knitting, Weaving, Fabrics." In the 32nd Annual ACM Symposium, chair Emily Whiting. ACM Press, 2019. http://dx.doi.org/10.1145/3332165.3368369.

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