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Journal articles on the topic 'Smart fabrik'

Author: Grafiati
Published: 4 June 2021
Last updated: 16 February 2022

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1

Plutz, Martin, Markus Große Böckmann, Philipp Siebenkotten, and Robert Schmitt. "Mit Smart Glasses & Co. zur intelligenten und mitarbeiterorientierten Fabrik." ZWF Zeitschrift für wirtschaftlichen Fabrikbetrieb 111, no. 1-2 (2016): 56–58. http://dx.doi.org/10.3139/104.111469.

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2

Schönheit, M., and T. Kuhnert. "Smart Factory – Die Planung der intelligenten Fabrik/Smart Factory - How to design a factory with future." wt Werkstattstechnik online 107, no. 04 (2017): 219–24. http://dx.doi.org/10.37544/1436-4980-2017-04-23.

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Industrie 4.0 ist längst kein Schlagwort mehr. Es steht eine technische Revolution bevor, welche die Arbeitsbereiche grundlegend verändern wird. Vor diesem Hintergrund stellt sich die Frage, wie Industriebauten zu planen sind, um wettbewerbsfähig zu bleiben. Der Fachartikel entwirft den Rahmen für die Implementierung einer „intelligenten Fabrik“ und stellt dabei Instrumente sowie Maßnahmen eines erfahrenen Fabrikplaners vor. Eine besondere Rolle spielt der Mensch, der als gestaltende Größe im Zentrum der Prozesslandkarte steht und durch Anwendungen im Umfeld von Industrie 4.0 in seiner Rolle u
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Torah, Russel, Yang Wei, Neil Grabham, et al. "Enabling platform technology for smart fabric design and printing." Journal of Engineered Fibers and Fabrics 14 (January 2019): 155892501984590. http://dx.doi.org/10.1177/1558925019845903.

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A hardware and software platform is presented enabling the design, and realisation via printing, of smart fabrics. The cultural and creative industries are an important economic area within which designers frequently utilise fabrics. Smart fabrics offer further creative opportunities to the cultural and creative industries, but designers often lack the required specialist knowledge, in electronics, software and materials, to produce smart fabrics. The software platform offers the ability to perform design, layout and visualisation of a smart fabric using a library of standard smart fabric func
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4

Agrawal, Anshul, Yong K. Kim, Paul D. Calvert, and Michael Lee. "The Power Conversion Characteristics of Woven Organic Photovoltaic Wire Fabrics." Advances in Science and Technology 80 (September 2012): 71–76. http://dx.doi.org/10.4028/www.scientific.net/ast.80.71.

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Recently there has been growing interest in developing smart photovoltaic fabric devices. These devices could be used as a sustainable and ubiquitous power source for wearable and other electronic devices. Three woven photovoltaic fabric structures were constructed with fiber-shaped organic photovoltaic wire from Konarka Technologies, Inc. (Lowell, MA, USA). The organic photovoltaic wire is a flexible, lightweight and wire shaped organic photovoltaic fiber based on bulk hetero-junction nanocomposites. The power conversion characteristics of photovoltaic fabrics developed were thoroughly invest
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Chika, Yinka-Banjo, and Salau Abiola Adekunle. "SMART FABRICS-WEARABLE TECHNOLOGY." International Journal of Engineering Technologies and Management Research 4, no. 10 (2020): 78–98. http://dx.doi.org/10.29121/ijetmr.v4.i10.2017.109.

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Smart fabrics, generally regarded as smart Textiles are fabrics that have embedded electronics and interconnections woven into them, resulting in physical flexibility that is not achievable with other known electronic manufacturing techniques. Interconnections and components are intrinsic to the fabric therefore are not visible and less susceptible of getting tangled by surrounding objects. Smart fabrics can also more easily adapt to quick changes in the sensing and computational requirements of any specific application, this feature being useful for power management and context awareness. For
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Lee, Dabin, Jeong Sang, Pil Yoo, Tae Shin, Kyung Oh, and Juhyun Park. "Machine-Washable Smart Textiles with Photothermal and Antibacterial Activities from Nanocomposite Fibers of Conjugated Polymer Nanoparticles and Polyacrylonitrile." Polymers 11, no. 1 (2018): 16. http://dx.doi.org/10.3390/polym11010016.

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Smart textiles based on conjugated polymers have been highlighted as promising fabrics that can intelligently respond to environmental stimuli based on the electrical properties of polymer semiconductors. However, there has been limited interest in the photothermal properties of conjugated polymers that can be applied to smart textiles. We prepared nanoparticles by assembling a conjugated polymer with a fatty acid via an emulsion process and nanocomposite fibers by distributing the conjugated polymer nanoparticles in a polyacrylonitrile matrix. We then fabricated the textiles using the fibers.
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Özdemir, Hakan, and Selçuk Kılınç. "Smart Woven Fabrics With Portable And Wearable Vibrating Electronics." Autex Research Journal 15, no. 2 (2015): 99–103. http://dx.doi.org/10.2478/aut-2014-0037.

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Abstract The portable and wearable instrumented fabrics capable of measuring biothermal variable is essential for drivers, especially long-distance drivers. Here we report on portable and wearable devices that are able to read the temperature of human body within the woven fabric. The sensory function of the fabric is achieved by temperature sensors, soldered on conductive threads coated with cotton. The presence of stainless steel wires gives these materials conductive properties, enabling the detection of human body temperature and transmitting the signal form sensors to the motors on the fa
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Chen, Yangyi, Jie An, Qi Zhong, Peter Müller-Buschbaum, and Jiping Wang. "Smart control of cotton fabric comfort by cross-linking thermo-responsive poly(2-(2-methoxyethoxy) ethoxyethyl methacrylate-co-ethylene glycol methacrylate)." Textile Research Journal 87, no. 13 (2016): 1620–30. http://dx.doi.org/10.1177/0040517516657061.

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The smart control of cotton fabric comfort by cross-linking thermo-responsive random copolymer is investigated. The monomers 2-(2-methoxyethoxy) ethoxyethyl methacrylate (MEO2MA) and ethylene glycol methacrylate (EGMA) with a molar ratio of 17:3 are selected to synthesize the thermo-responsive random copolymer poly(2-(2-methoxyethoxy) ethoxyethyl methacrylate- co-ethylene glycol methacrylate), abbreviated as P(MEO2MA- co-EGMA). By using citric acid as a cross-linking agent, the obtained P(MEO2MA- co-EGMA) is successfully immobilized onto cotton fabrics. Smart control is achieved from the therm
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9

Youssefi, Mostafa, and Fereshteh Motamedi. "An electrically conductive hybrid polyaniline/silver-coated polyester fabric for smart applications." Journal of Industrial Textiles 50, no. 5 (2019): 754–69. http://dx.doi.org/10.1177/1528083719846125.

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A highly conductive polyester fabric was fabricated by the two-step successive in situ polymerization of aniline. This was followed by silver electroless plating on the surface of the fabric. Also, a silver electroless-plated fabric and a PANI-coated fabric were prepared by the in situ chemical polymerization of aniline. The electrical conductivity measurements, scanning electron microscopy, thermal gravimetric analysis, water contact angle measurements, wide angle X-ray diffraction, Fourier transform infrared spectroscopy, and air permeability tests were conducted on the coated fabrics. It wa
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Liu, Sai, Xingxing Pan, Dongming Zheng, Gui Liu, and Zhaoqun Du. "The manufacture and characterization of auxetic, self-curling, and self-folding woven fabrics by helical auxetic yarns." Journal of Industrial Textiles 50, no. 1 (2018): 3–12. http://dx.doi.org/10.1177/1528083718817559.

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Auxetic fabrics with traditional filaments and auxetic structures have been provided by knitting method; however, the auxetic behavior and applicability of woven fabric with auxetic yarns remain to be studied. Thus, the paper aims to present the special characters of woven fabrics with heliacal auxetic yarns. Auxetic yarns with the maximum value of Poisson's ratio −0.88 were used as weft yarns to do the weaving by the semi-automatic loom. Then the properties of the fabrics have been tested and analyzed under tensions of different directions (warp, weft, and diagonal). The results indicated tha
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11

Gautam, Bhaskarchand, and Hsiao-hua Yu. "Self-Cleaning Cotton Obtained after Grafting Thermoresponsive Poly(N-vinylcaprolactam) through Surface-Initiated Atom Transfer Radical Polymerization." Polymers 12, no. 12 (2020): 2920. http://dx.doi.org/10.3390/polym12122920.

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Although the performance of smart textiles would be enhanced if they could display self-cleaning ability toward various kinds of contamination, the procedures that have been used previously to impart the self-cleaning potential to these functional fabrics (solvent casting, dip coating, spin coating, surface crosslinking) have typically been expensive and/or limited by uncontrollable polymer thicknesses and morphologies. In this paper, we demonstrate the use of atomic transfer radical polymerization for the surface-initiated grafting of poly(N-vinylcaprolactam), a thermoresponsive polymer, onto
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12

Save, Ninad S., Manjeet Jassal, and Ashwini K. Agrawal. "Smart Breathable Fabric." Journal of Industrial Textiles 34, no. 3 (2005): 139–55. http://dx.doi.org/10.1177/1528083705047905.

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Zhang, Huanxia, Wen Wu, Jie Zhou, Xinchao Zhang, Tantan Zhu, and Mingqiong Tong. "Magnetic field-induced self-assembly of chemically modified graphene oxide on cellulose fabrics for the fabrication of flexible conductive devices." Cellulose 28, no. 4 (2021): 2303–14. http://dx.doi.org/10.1007/s10570-020-03653-1.

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AbstractIn this present study, we have successfully fabricated the cellulose fabric with excellent electrical conductivity by depositing the graphene oxide grafted with the modified ferroferric oxide (GOF) upon fabric substrate via layer-by-layer magnetic-field-induced self-assembly apporoach and followed by chemical reduction. The results indicated that the morphologies of graphene oxide nanosheets for three-layer deposited fabrics could form the highly oriented wrinkled structures, which resulted from the synergistic interactions of magnetic induction force on magnetic doublet, hydrogen bond
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Esposito Corcione, Carola, Francesca Ferrari, Raffaella Striani, and Antonio Greco. "Transport Properties of Natural and Artificial Smart Fabrics Impregnated by Graphite Nanomaterial Stacks." Nanomaterials 11, no. 4 (2021): 1018. http://dx.doi.org/10.3390/nano11041018.

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In this work, we studied the transport properties (thermal and electrical conductivity) of smart fabric materials treated with graphite nanomaterial stacks–acetone suspensions. An innovative and easy method to produce graphite nanomaterial stacks–acetone-based formulations, starting from a low-cost expandable graphite, is proposed. An original, economical, fast, and easy method to increase the thermal and electrical conductivity of textile materials was also employed for the first time. The proposed method allows the impregnation of smart fabric materials, avoiding pre-coating of the fibers, t
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15

Liu, Su, Jiahui Tong, Chenxiao Yang, and Li Li. "Smart E-textile: Resistance properties of conductive knitted fabric – Single pique." Textile Research Journal 87, no. 14 (2016): 1669–84. http://dx.doi.org/10.1177/0040517516658509.

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Wearable electronics textiles are a new emerging phenomenon. These are textiles that incorporate electrical properties, for example heating, light emitting, sensing, etc., and are now being rapidly developed due to the creation of new types of fibers and fiber composites. The different ways that can be used to combine conductive fibers with electronics components have been receiving much attention in wearable electronics research. However, to meet the requirements for both aesthetics and function, textiles technology and the garment design method are important for commercial success. In order
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Grancarić, Ana M., Ivona Jerković, Vladan Koncar, et al. "Conductive polymers for smart textile applications." Journal of Industrial Textiles 48, no. 3 (2017): 612–42. http://dx.doi.org/10.1177/1528083717699368.

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Smart textiles are fabrics able to sense external conditions or stimuli, to respond and adapt behaviour to them in an intelligent way and present a challenge in several fields today such as health, sport, automotive and aerospace. Electrically conductive textiles include conductive fibres, yarns, fabrics, and final products made from them. Often they are prerequisite to functioning smart textiles, and their quality determines durability, launderability, reusability and fibrous performances of smart textiles. Important part in smart textiles development has conductive polymers which are defined
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17

Zhang, Ru Quan, Jian Qiang Li, De Jun Li, and Jing Jing Xu. "Study of the Structural Design and Capacitance Characteristics of Fabric Sensor." Advanced Materials Research 194-196 (February 2011): 1489–95. http://dx.doi.org/10.4028/www.scientific.net/amr.194-196.1489.

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In response to the problem for non-washable and poor taking comfortable characterizations of smart electronic fabrics at present, two different organizational structures of fabric sensors with plain weave and double weave are designed. The basic principle of design of fabric sensor is: the core-spun yarn made of metal wire is used as core wire, the structural unit with capacitor function is built by interweaving warp with weft, and the induction of fabric to external pressure is reflected by testing changes in capacitance of fabric. The models of equivalent electronic circuits of two fabric se
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Lou, Ching Wen, Yuan Jen Chang, Bing Chiuan Shiu, Ming Chun Sie, and Jia Horng Lin. "Property Evaluation of Polyester/Cotton Woven Fabrics Made with Stainless Steel Weft Yarns." Advanced Materials Research 910 (March 2014): 182–85. http://dx.doi.org/10.4028/www.scientific.net/amr.910.182.

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Smart textiles have been widely discussed as a result of a fact that wearable technique has been used in healthcare, sports, tele-rehabilitation, and military fields. Textiles are characterized as comfortable, and thus suitable for long-term wearing, and therefore this study proposes to prepare humidity-sensitive textiles with electrical conductivity. Woven manufacturing is used in order to provide the textiles with desired mechanical properties of the woven fabrics that use high strength polyester (PET) fibers as the warp yarn, and cotton fibers and stainless steel fibers as two weft yarn typ
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19

Stylios, George K., and Meixuan Chen. "The Concept of Psychotextiles; Interactions between Changing Patterns and the Human Visual Brain, by a Novel Composite SMART Fabric." Materials 13, no. 3 (2020): 725. http://dx.doi.org/10.3390/ma13030725.

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A new SMART fabric concept is reported in which visual changes of the material are designed to influence different human emotions. This is achieved by developing a novel electrochromic composite yarn, knitted into pattern-changing fabrics, which has high response in temperature change and uniform contrast. The influence of these pattern-changing effects on the response of the human visual brain is investigated further by using event-related potential (ERP). Four SMART pattern-changing fabric pairs were used in this experiment. Each fabric presents two patterns interactively with different, but
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20

Petrulyte, Salvinija Petrulyte, Deimante Plascinskiene, and Donatas Petrulis. "Impregnation of Microencapsulated Aroma Oil on Ramie Blended Terry Textile and its Bending Rigidity." Fibres and Textiles in Eastern Europe 25 (August 31, 2017): 95–101. http://dx.doi.org/10.5604/01.3001.0010.2842.

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An aroma agent containing eucalyptus essential oil was used for the development of a smart terry textile. The performance of terry woven fabric with microcapsules in relation to varied amounts of binder as well as the weft density of the fabric was evaluated. By SEM analysis it was confirmed that microcapsules really covered the terry textile. The bending rigidity and coefficient of anisotropy of samples modified with microcapsules and untreated ones were assessed. Due to additive components such as microcapsules and binder, the bending rigidity of terry fabric increased by even 5.1-12.8 times
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Ehrmann, A., F. Heimlich, A. Brücken, MO Weber, and R. Haug. "Suitability of knitted fabrics as elongation sensors subject to structure, stitch dimension and elongation direction." Textile Research Journal 84, no. 18 (2014): 2006–12. http://dx.doi.org/10.1177/0040517514548812.

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The area of smart textiles has recently attracted more and more attention. One of the challenges in this domain is the development of textile sensors, such as textile electrodes, pressure sensors, elongation sensors, etc., mostly containing conductive yarn and/or conductive coating. One possibility to build a textile elongation sensor which can, for example, be utilized as a breathing sensor in a smart shirt, is using knitted fabrics created from conductive yarns, which often show a strong dependence of the electric resistance on the elongation. Due to the typical wearing out of knitted fabric
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Zürn, Michael, Matthias Reichenbach, Thorsten Reichling, Jan Hodapp, and Ulrich Berger. "Smarte Produktionsassistenz für wandlungsfähige Fabrik." atp edition 59, no. 05 (2017): 44. http://dx.doi.org/10.17560/atp.v59i05.1852.

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Kennzeichnend für die Automobilindustrie sind zunehmende individuelle Wünsche der Kunden und eine Verkürzung der Konjunkturzyklen. Für Hersteller, wie die Daimler AG, führt diese Marktsituation zu hoher Variantenvielfalt und Stückzahlschwankungen. Da die Ausprägungen dieser Einflüsse weitgehend unbekannt sind, muss das Produktionssystem darauf vorbereitet sein, bedarfsgerecht angepasst zu werden. Wandlungsfähige Produktionssysteme gehören daher zu den strategischen Erfolgsgrößen für die Automobilindustrie. In diesem Beitrag wird ein modularer, skalierbarer Produktionsbaukasten vorgestellt, der
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Zürn, Michael, Matthias Reichenbach, Thorsten Reichling, Jan Hodapp, and Ulrich Berger. "Smarte Produktionsassistenz für wandlungsfähige Fabrik." atp magazin 59, no. 05 (2017): 44–51. http://dx.doi.org/10.17560/atp.v59i05.1938.

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Kennzeichnend für die Automobilindustrie sind zunehmende individuelle Wünsche der Kunden und eine Verkürzung der Konjunkturzyklen. Für Hersteller, wie die Daimler AG, führt diese Marktsituation zu hoher Variantenvielfalt und Stückzahlschwankungen. Da die Ausprägungen dieser Einflüsse weitgehend unbekannt sind, muss das Produktionssystem darauf vorbereitet sein, bedarfsgerecht angepasst zu werden. Wandlungsfähige Produktionssysteme gehören daher zu den strategischen Erfolgsgrößen für die Automobilindustrie. In diesem Beitrag wird ein modularer, skalierbarer Produktionsbaukasten vorgestellt, der
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24

Lapkovska, Eva, and Inga Dabolina. "AN INVESTIGATION ON THE VIRTUAL PROTOTYPING VALIDITY – SIMULATION OF GARMENT DRAPE." SOCIETY. INTEGRATION. EDUCATION. Proceedings of the International Scientific Conference 4 (May 25, 2018): 448–58. http://dx.doi.org/10.17770/sie2018vol1.3187.

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Achievement of desired garment form is essential in the development of clothing design, which depends on properties of its raw material - mainly fabric. Virtual prototyping can serve as a tool for assessing the form and fit of garments before real production and deciding whether to make changes in ease values, pattern cut or fabric parameters. The aim of the study is investigation of reliability of virtual prototyping results using Modaris 3D (Lectra) due to influences of changeable fabric parameters on garment drape effects, as well as verifiability with three-dimensional (3D) scanning (Vitus
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Tadesse, Melkie Getnet, R. Harpa, Y. Chen, L. Wang, V. Nierstrasz, and C. Loghin. "Assessing the comfort of functional fabrics for smart clothing using subjective evaluation." Journal of Industrial Textiles 48, no. 8 (2018): 1310–26. http://dx.doi.org/10.1177/1528083718764906.

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Sensory investigations of the functional textiles could be an alternative for the quality inspection and control of the products. The purpose of this research is to use subjective evaluation technique for assessing the tactile comfort of some functional textile fabrics based on AATCC Evaluation procedure 5-2011. Blind subjective evaluations and visual subjective evaluations were performed for sensory investigation. Ten fabric-skin-contact and comfort-related sensory properties were used to evaluate the handle of the functional textile fabrics. The reliability of the sensorial data obtained by
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Petrulyte, Salvinija, Deimante Vankeviciute, and Donatas Petrulis. "Characterization of structure and air permeability of aromatherapic terry textile." International Journal of Clothing Science and Technology 28, no. 1 (2016): 2–17. http://dx.doi.org/10.1108/ijcst-01-2015-0013.

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Purpose – The purpose of this paper is to investigate the physical properties of smart aromatherapic ramie/cotton terry fabrics containing microcapsules (MC) with essential Eucalyptus oil. Design/methodology/approach – Terry fabrics are manufactured by changing the weft density. The air permeability is determined for grey and microencapsulated textile. The factorial designs are made. For informative experiment the linear type of regression is analysed. Development of physical properties of microencapsulated terry fabrics is discussed. Findings – The air permeability of aromatherapic terry fabr
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Mohanakrishnan, D., and M. Sureshkumar. "A Comparative Analysis of Orientation on the Shape Memory Effect of Fabric Reinforced Shape Memory Polymer Composites." Materials Science Forum 830-831 (September 2015): 529–32. http://dx.doi.org/10.4028/www.scientific.net/msf.830-831.529.

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Shape memory polymer composites (SMPC) are a new kind of smart materials where many researches have been carried out. In SMPC, shape memory polymers serves as a matrix material and particles or fibers act as reinforcements. As structural applications demand structures to withstand load and stiffness, particles reinforced SMPC does not serve for it. Therefore fiber/fabric reinforced SMPC used widely for such applications. SMPC’S changes its shape during a typical thermo-mechanical cycle and retracts to its original shape upon external stimulus (temperature). Molecular mechanism is the driving f
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Guo, Ai Lian, and Jia Lu Li. "The Research on the Smart Thermostat Woven High-Count Fabric." Advanced Materials Research 332-334 (September 2011): 595–98. http://dx.doi.org/10.4028/www.scientific.net/amr.332-334.595.

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In this paper, the smart thermostat woven high-count fabric was researched, including the choice of fibers, special spinning technology, weaving technology, and finishing technology. The properties of the smart thermostat fabric were as follows. Average melting temperature was 23.2 °C, average melting endothermic was 12.6 J/g, average freezing temperature is 19.81 °C, and average solidification heat was 12.35 J/g. These mean that the fabric researched has the adaptive thermostat function. And the tested results also show that the fabric researched has reached the top level of the same kinds of
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Zhou, Yan, Wei Zhu, Lifang Zhang, et al. "Magnetic properties of smart textile fabrics through a coating method with NdFeB flake-like microparticles." Journal of Engineered Fibers and Fabrics 14 (January 2019): 155892501986570. http://dx.doi.org/10.1177/1558925019865708.

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Coatings were prepared by using NdFeB flake-like microparticles with aqueous polyurethane polyol dispersions and were coated onto the surface of textile fabrics in order to obtain textile fabrics with good magnetic properties. X-ray diffraction and energy dispersive spectroscopy analysis showed that there was no significant oxidation and magnetic decline in the samples after 6 months. The surface morphologies of the textiles were characterized using scanning electron microscopy and optical microscopy. The results showed that the crack density (the number of cracks per unit area) increased with
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J, Akash, Sumukha G, Deeksha M, and Sukeerthi G. "Smart Fabric for Athletes and Cyclists." International Journal of Engineering Trends and Technology 35, no. 8 (2016): 353–58. http://dx.doi.org/10.14445/22315381/ijett-v35p272.

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Angelucci, Alessandra, Matteo Cavicchioli, Ilaria A. Cintorrino, et al. "Smart Textiles and Sensorized Garments for Physiological Monitoring: A Review of Available Solutions and Techniques." Sensors 21, no. 3 (2021): 814. http://dx.doi.org/10.3390/s21030814.

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Several wearable devices for physiological and activity monitoring are found on the market, but most of them only allow spot measurements. However, the continuous detection of physiological parameters without any constriction in time or space would be useful in several fields such as healthcare, fitness, and work. This can be achieved with the application of textile technologies for sensorized garments, where the sensors are completely embedded in the fabric. The complete integration of sensors in the fabric leads to several manufacturing techniques that allow dealing with both the technologic
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Chen, Junli, Zhaoqun Du, and Tianyuan Li. "Structural design and characterization of highly elastic woven fabric containing helical auxetic yarns." Textile Research Journal 90, no. 7-8 (2019): 809–23. http://dx.doi.org/10.1177/0040517519881814.

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Auxetic textiles have been the focus of much attention due to their great promise for advanced protective clothing, flexible energy harvest devices, and functional textiles. Herein, plain fabric, basket fabric, and a derivative weave with the warp and weft yarns arrangement in a series of zigzags were prepared by incorporating different initial wrap density helical auxetic yarns in the weft direction using a commercial semi-automatic loom. The derivative weave using HAYs with a 150 m−1 initial wrap density as the weft yarn not only possesses superior auxetic behavior but also has good performa
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Spilz, Andreas, Thomas Engleder, Michael Munz, and Marius Karge. "Development of a smart fabric force-sensing glove for physiotherapeutic Applications." Current Directions in Biomedical Engineering 5, no. 1 (2019): 513–15. http://dx.doi.org/10.1515/cdbme-2019-0129.

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AbstractIn this work, a low-priced smart fabric forcesensing glove is developed which is able to measure the total amount and direction of the force a person applies on a patient in a physiotherapeutic context. A device like this would be beneficial for the education of physiotherapists, to measure the progress of a patient and to evaluate the treatment. The proposed device uses a new sensor, which is based on a piezoresistive fabric. This fabric changes its electrical resistance according to the applied stress. The characterization of this sensor revealed that the change in resistance of the
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Subash, Alvin. "Smart Iron Box to Prevent Fabric Damage." International Journal for Research in Applied Science and Engineering Technology 7, no. 6 (2019): 577–80. http://dx.doi.org/10.22214/ijraset.2019.6101.

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Li, Xin, Zhihan Lv, Ihab Hamzi Hijazi, Hongzan Jiao, Li Li, and Kuncheng Li. "Assessment of Urban Fabric for Smart Cities." IEEE Access 4 (2016): 373–82. http://dx.doi.org/10.1109/access.2016.2517072.

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Michalak, Marina, and Izabella Krucińska. "A smart fabric with increased insulating properties." Textile Research Journal 86, no. 1 (2015): 97–111. http://dx.doi.org/10.1177/0040517515581585.

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Lee, Kang-Ho, Dongkyu Lee, Yong-Goo Lee, and Ohwon Kwon. "Sewing-enabled electric button for smart fabric." JOURNAL OF SENSOR SCIENCE AND TECHNOLOGY 30, no. 2 (2021): 67–70. http://dx.doi.org/10.46670/jsst.2021.30.2.67.

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Raji, Rafiu King, Xuhong Miao, Ailan Wan, et al. "Progress on the Fabrication of Smart Textiles Based on Soft Strain Sensors." AATCC Journal of Research 6, no. 6 (2019): 1–12. http://dx.doi.org/10.14504/ajr.6.6.1.

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The focus of this study is on strain sensing research and applications in smart textiles. Strain sensing is the measurement of fabric deformation by embedding a strain-sensitive material in it and subjecting it to stress. This paper presents an extensive classification of knitted textile strain sensors. Salient knitted strain sensor production parameters, such as conductive yarn choice, fabric structure, fabric structure deformation, and its relationship to strain signal extraction are discussed. The study concludes that producing yarn-based soft strain sensors for smart textile applications i
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Vu, Chi Cuong, and Jooyong Kim. "Highly Sensitive E-Textile Strain Sensors Enhanced by Geometrical Treatment for Human Monitoring." Sensors 20, no. 8 (2020): 2383. http://dx.doi.org/10.3390/s20082383.

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Electronic textiles, also known as smart textiles or smart fabrics, are one of the best form factors that enable electronics to be embedded in them, presenting physical flexibility and sizes that cannot be achieved with other existing electronic manufacturing techniques. As part of smart textiles, e-sensors for human movement monitoring have attracted tremendous interest from researchers in recent years. Although there have been outstanding developments, smart e-textile sensors still present significant challenges in sensitivity, accuracy, durability, and manufacturing efficiency. This study p
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Nasrullah, Jawad, Zhiquan Luo, and Greg Taylor. "Designing Software Configurable Chips and SIPs using Chiplets and zGlue." International Symposium on Microelectronics 2019, no. 1 (2019): 000027–32. http://dx.doi.org/10.4071/2380-4505-2019.1.000027.

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Abstract zGlue Smart Fabric, an active silicon interposer, enables rapid development of Systems in Package (SiPs) and Chips using chiplet stacking in a modular style and software programmability. zGlue Smart Fabric works with off-the-shelf chiplets in known good die and wafer level chip scale packages format without dictating a footprint constraint on chiplets. This is achieved by making a fine pitch copper pillar micro-bump array on the surface that can conform to the chiplet ball map using a programable connectivity and power array built into zGlue's fabric. Connection to RF and sensitive an
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Suh, Minyoung, Katherine E. Carroll, Edward Grant, and William Oxenham. "Investigation into the feasibility of inductively coupled antenna for use in smart clothing." International Journal of Clothing Science and Technology 26, no. 1 (2014): 25–37. http://dx.doi.org/10.1108/ijcst-10-2012-0064.

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Purpose – This research investigated the feasibility of using an inductively coupled antenna as the basis of applying a systems approach to smart clothing. In order to simulate real-life situations, the impact of the distortions and relative displacement of different fabric layers (with affixed antennas) on the signal quality was assessed. The paper aims to discuss these issues. Design/methodology/approach – A spiral antenna was printed on different fabric substrates. Obstructive conditions of the inductively coupled fabric layers were investigated to find out how much influence these conditio
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Sealy, Cordelia. "Shedding light on smart fabrics." Materials Today 7, no. 12 (2004): 9. http://dx.doi.org/10.1016/s1369-7021(04)00543-7.

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Teumer, Nicki. "Produktion auf Überholspur." VDI-Z 163, no. 04 (2021): 37–39. http://dx.doi.org/10.37544/0042-1766-2021-04-37.

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Ein renommierter Pumpenhersteller hat seinen Stammsitz erneuert. Herzstück ist jetzt eine smarte Fabrik, die mit modernen Werkplätzen und autonomen Transportsystemen (AGVs) ausgestattet ist. Der Clou ist ein digitales Werkerführungssystem, das als Intelligenz der Fabrik fungiert, sämtliche Fertigungsabläufe überwacht und das Personal anleitet.
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Liu, Wei, Ningjuan Liu, Yang Gao, Shuang Wang, Qiong Cheng, and Fujun Xu. "Strain sensing fabric integrated with carbon nanotube yarn for wearable applications." Textile Research Journal 89, no. 15 (2018): 3048–55. http://dx.doi.org/10.1177/0040517518807441.

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Textiles, as a desired platform for wearable smart technology, can be integrated with smart elements in the hierarchical levels of the fabric structure. In this study, a new way to make strain sensing fabric was developed by embedding a single strain sensing carbon nanotube (CNT)-based yarn into the woven structure. To overcome the abrasion during insertion, the yarn was coated with poly(vinyl alcohol) (PVA) to achieve higher mechanical performance. The gauge factor of the yarn was improved from 0.91 to 1.64. The sensing properties of CNT/PVA yarn integrated strain sensing fabric showed a gaug
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LAGĖ, Agnė, Kristina ANCUTIENĖ, Rūta PUKIENĖ, Eva LAPKOVSKA, and Inga DĀBOLIŅA. "Comparative Study of Real and Virtual Garments Appearance and Distance Ease." Materials Science 26, no. 2 (2020): 233–39. http://dx.doi.org/10.5755/j01.ms.26.2.22162.

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Nowadays, virtual try-on is an irreplaceable technology in fashion industry, so it is very important to prove virtual try-on matching with the real garments. Therefore, the aim of this research was to compare garment fit using virtual try-on and scanning technologies. For this reason, garment visual appearance and distance ease between straight fit dress and mannequin in respect to fabrics properties were investigated. Women mannequins in different sizes were scanned by 3D scanner VITUS Smart XXL without and with the real straight fit dresses made from five different woven fabrics. Fabrics mec
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Ibanez Labiano, Isidoro, Dilan Arslan, Elif Ozden Yenigun, Amir Asadi, Hulya Cebeci, and Akram Alomainy. "Screen Printing Carbon Nanotubes Textiles Antennas for Smart Wearables." Sensors 21, no. 14 (2021): 4934. http://dx.doi.org/10.3390/s21144934.

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Electronic textiles have become a dynamic research field in recent decades, attracting attention to smart wearables to develop and integrate electronic devices onto clothing. Combining traditional screen-printing techniques with novel nanocarbon-based inks offers seamless integration of flexible and conformal antenna patterns onto fabric substrates with a minimum weight penalty and haptic disruption. In this study, two different fabric-based antenna designs called PICA and LOOP were fabricated through a scalable screen-printing process by tuning the conductive ink formulations accompanied by c
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Zhang, Mei Ling, Rui Wang, and Zhan Gang Wang. "Three Layers Weaved once Structure Design and Performance Testing for Fabric Keyboard Switch." Materials Science Forum 675-677 (February 2011): 1171–74. http://dx.doi.org/10.4028/www.scientific.net/msf.675-677.1171.

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Flexible fabric keyboard is a field of smart textile. It can overcome traditional horniness keyboard can’t be foldable and washing. In this laboratory study there is Three Layers Weaved Once structure designed which consists of three kinds of orifice dimension, for example 4 wefts, 8 wefts and 12 wefts. At the same time three kinds of conductive filaments number combined are planed for each orifice dimension. There are 1, 4 and 8 roots of filaments combined together so that contact areas of the conductive material are changed. Then the immediate regain, connection pressure and connection ratio
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Huang, Guangxi, Lianmei Liu, Rui Wang, Jing Zhang, Xuemei Sun, and Huisheng Peng. "Smart color-changing textile with high contrast based on a single-sided conductive fabric." Journal of Materials Chemistry C 4, no. 32 (2016): 7589–94. http://dx.doi.org/10.1039/c6tc02051h.

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Meng, Qinghao, Jinlian Hu, Yong Zhu, Jing Lu, and Baohua Liu. "Biological Evaluations of a Smart Shape Memory Fabric." Textile Research Journal 79, no. 16 (2009): 1522–33. http://dx.doi.org/10.1177/0040517509101789.

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Li, Yundong, Jingxuan Ai, and Changqing Sun. "Online Fabric Defect Inspection Using Smart Visual Sensors." Sensors 13, no. 4 (2013): 4659–73. http://dx.doi.org/10.3390/s130404659.

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