Relevant bibliographies by topics / Spacer warp knit fabric

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

Academic literature on the topic 'Spacer warp knit fabric'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Spacer warp knit fabric"

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Chen, Si. "Low-Velocity Impact Properties of Polyurethane Composites Reinforced with Warp-Knit Spacer Fabric." AATCC Journal of Research 8, no. 2 (March 1, 2021): 38–47. http://dx.doi.org/10.14504/ajr.8.2.5.

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Eight kinds of polyurethane (PU)-matrix composite samples were prepared by impregnating the warp-knit spacer fabrics with flexible PU foam. An impact test was carried out to investigate the influence of fabric structure parameters on the compression behaviors and energy-absorption efficiency of the composites. By using finite element (FE) analysis and ANSYS software, the unit cell models of the composites were built to simulate the impact responses and get strain-stress curves. Comparison of FE simulation and experimental curves showed good consistency between them.
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Chen, Si. "Yhe Compression Meso-Mechanics Theoretical Model and Experimental Verification of Polyurethane-Based Warp-Knit Spacer Fabric Composites." AATCC Journal of Research 8, no. 5 (September 1, 2021): 30–38. http://dx.doi.org/10.14504/ajr.8.5.4.

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In this research, a new type of binary material, a polyurethane-based warp-knitted spacer fabric composite (PWSF), having a unique three-dimensional structure, high strength, and a variety of surface structures was prepared. The compression meso-mechanics theoretical model based on the Winkler elastic foundation beam theory and structural parameters of PWSF were used to predict the compression performance of PWSF. To verify the validity of compression model, the compression stress-strain curves of theoretical simulation were compared with the quasi-static compression test results. The deviation between these two compression moduli was less than 7%. The compression meso-mechanics model established in this study can effectively simulate the actual compression behaviors for different PWSF specimens. A regular pattern of compression properties of this novel composite from the theoretical research on meso-mechanics perspectives can be proposed.
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Huo, Fu Lei, Guo Li Zhang, Jia Lu Li, Guang Wei Chen, and Li Chen. "Study on the Compression Properties of Epoxy Matrix Composites Reinforced by PES Warp-Knitted Spacer Fabric." Advanced Materials Research 217-218 (March 2011): 1208–11. http://dx.doi.org/10.4028/www.scientific.net/amr.217-218.1208.

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This research paper presents an experimental investigation on the compression and compressive resilience properties of warp-knitted spacer fabric composites with different resin content and different kinds of resin. By means of hand roller coating technology, four kinds of warp-knitted spacer fabric composites were made. The experiments were tested according to GB/T1453-2005 and ISO3386/2:1984. It is shown that the resin content and resin type seriously affect the compression and compressive resilience properties of warp-knitted spacer fabric composite. The data indicated that when the warp-knitted spacer fabric composite coated with the same kind of resin, with increasing resin content the elastic modulus added and the compressive resilience decreased. Having the same resin content, the compression properties of pacer fabric composite increase with the increase of flexural strength of resin; while the compressive resilience decrease.
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Guo, Xiao Fang, and Hair U. Long. "A Study on Compression Behavior of Warp Knitted Spacer Fabrics." Advanced Materials Research 332-334 (September 2011): 1036–39. http://dx.doi.org/10.4028/www.scientific.net/amr.332-334.1036.

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The influences of inner layer′s (spacer yarn′s) pattern, surface structure of fabric, thickness, and spacer yarn′s diameter on compression resistance of warp knitted spacer fabric were investigated in the study. The compression tests involving 10 samples were carried out by TexLab Precision Instruments CT250 based on Chinese standard FZ/T01051.2-1998. The results show that inner layer′s pattern and surface structure affect the compression resistance of spacer fabric by changing the inclination angle of spacer yarn, the closer spacer yarn keep vertical, the better compression resistance of fabric. The laws of force exerted on spacer yarn followed by fabric′s thickness differ according to compression rate, the compression resistance increases as the thickness increases when the deformation of fabric is small (less than 4.90%), but decreases when the deformation is large enough (more than 19.20%). The diameter of spacer yarn has apparent effect on compression resistance, and the fabric with finer spacer yarns has lower compression resistance.
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Chun, Heoung Jae, H. W. Kim, and Joon Hyung Byun. "Elastic Behaviors of Stitched Multi-Axial Warp Knit Fabric Composites." Key Engineering Materials 306-308 (March 2006): 817–22. http://dx.doi.org/10.4028/www.scientific.net/kem.306-308.817.

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The purposes of stitching multi-axial warp knitted fabric preform prior to the fabrication of the composite materials by resin-transfer molding technique are to improve the resistance to delamination and to increase the out-of-plane properties of the composite materials for structural integrity. The influence of the through-the-thickness stitching on the elastic properties and behaviors of the multi-axial warp knit fabric composites is studied. An analytical model based on the representative volume is proposed to predict the elastic properties of the stitched multi-axial warp knit fabric composite materials. The fiber volume ratios determined by geometric parameters set by the representative volume and elastic behaviors of the in-situ constituent materials are used for the predictions. The crucial step in the analysis is to correlate the averaged stress states in the constituents by adopting bridging matrix. The predicted results are compared with the experimental results. It is found that the predicted results are in reasonably good agreement with the experimental results.
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Chen, Mei-yu, Hong-Hong Wang, Ying-ying Zhou, Sun Run-jun, and Xian-feng Liu. "Optimization of spacer filament parameters by compressive property variation." Textile Research Journal 89, no. 9 (May 17, 2018): 1614–22. http://dx.doi.org/10.1177/0040517518775919.

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The mechanical property of a warp-knitted spacer fabric during compression results mainly from the contribution of the spacer filaments in the fabric. So, the mechanical property of a spacer filament during compression can predict that of the designed spacer fabric during compression, and then provides a scientific basis for the designers. In this work, a new method for measuring the mechanical properties of a spacer filament during compression was proposed to simulate the compression situation of a filament in a warp-knitted spacer fabric. The paper focuses on the mechanical property variation of a spacer filament with different parameters during compression. In particular, we investigated the effect of different parameters of the spacer filament on the supporting and restful properties of the corresponding spacer fabric, which is closely related to consumer concerns. Furthermore, based on the analysis of the mechanical property variation of a spacer filament with different parameters during compression, the scheme of the spacer filament parameters designed in this work was optimized.
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Chen, Si, and Hai Ru Long. "The Effect of Spacer Yarn Arrangement on Compression Behaviors of Novel Flexible Foam-Core Sandwich Composites." Advanced Materials Research 821-822 (September 2013): 1152–58. http://dx.doi.org/10.4028/www.scientific.net/amr.821-822.1152.

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In this study, a kind of novel flexible foam-core sandwich composite was involved. The flexible foam-core sandwich composites were fabricated based on 3D warp-knitted spacer fabrics. The foam-core was filled in the spacer fabric by using a kind of modified hydrophilic polyurethane foam. In order to investigate the effect of spacer yarn inclination angle on the compression behaviors. A compression test was carried out. The compression stress-strain curve was used to analyze the effect of 3D warp-knitted spacer fabric spacer yarn arrangement. According to the experiment results, it indicates that the spacer yarn arrangement could influence the anti-compression capacity of the sandwich composites obviously. Therefore, the spacer yarn arrangement of 3D warp-knitted spacer fabrics can be changed to meet specific end-use requirement for foam-core sandwich composites.
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Wang, Zhengyue, and Hong Hu. "Tensile and forming properties of auxetic warp-knitted spacer fabrics." Textile Research Journal 87, no. 16 (July 27, 2016): 1925–37. http://dx.doi.org/10.1177/0040517516660889.

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Poisson’s ratio (PR) is defined as the negative ratio between the lateral strain and the longitudinal strain of a material under tensile or compressive loading condition. Auxetic fabrics are those having a negative PR, which means that when their longitudinal strain is positive, their lateral strain is also positive, and vice versa. In this work, tensile and forming properties of auxetic warp-knitted spacer fabrics were investigated and compared with those of the conventional warp-knitted spacer fabrics. Both uniaxial tensile tests and hemispherical compression experiments were conducted, and the relationships of the tensile and forming properties with the auxetic effect were discussed in terms of different fabric structural parameters. The results show that the auxetic warp-knitted spacer fabrics have a prolonged low stress stage in the wale direction, indicating that they are more prone to undergo deformation along the wale direction, and fabric with a longer low stress stage has a better auxetic effect. The results also show that the formability of auxetic warp-knitted spacer fabrics is much better than that of conventional warp-knitted spacer fabrics, due to the much low forming energies required under hemispherical compression, which can be affected by many factors such as auxetic effect, fabric thickness and stiffness, yarn materials and the structure of the spacer layer. When all other parameters are similar, auxetic fabric with a better auxetic effect will have better formability. The study has provided useful information for the design and application of this type of nonconventional spacer fabrics.
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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 (September 1, 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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Chen, Si, Xue-pei Zhang, Hong-xia Chen, and Xiao-ping Gao. "An Experimental Study Of The Compression Properties Of Polyurethane-Based Warp-Knitted Spacer Fabric Composites." Autex Research Journal 17, no. 3 (September 26, 2017): 199–205. http://dx.doi.org/10.1515/aut-2016-0010.

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AbstractThe present work has reported the compression properties of polyurethane-based warp-knitted spacer fabric composites (PWSF). In order to investigate the effect of structural parameters of fabric on the compression performance of composites, a series of warp-knitted spacer fabrics (WSF) with different structural parameters including spacer yarn inclination angle, thickness, fineness of spacer yarns, and outer layer structure have been involved. The produced composites have been characterized for compression properties. The energy-absorption performance during the compression process has been determined as a function of the efficiency and the compression stress obtained from compression tests. The results show that the composites based on spacer fabrics having smaller spacer yarns inclination angle, higher fabric thickness, finer spacer yarn, and larger mesh in outer layers perform better with respect to energy-absorption properties at lower stress level, whereas at higher stress level, the best energy-absorption abilities are obtained in case of spacer fabrics constructed of larger spacer yarn inclination angle, lower fabric thickness, coarser spacer yarn, and smaller mesh in surface layers.
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Dissertations / Theses on the topic "Spacer warp knit fabric"

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Gries, Thomas, Steffen Janetzko, and Plamen Kravaev. "Textile Verstärkungsstrukturen – Übersicht der Forschungsaktivitäten im Rahmen des SFB 532." Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2011. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-77778.

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Zu Beginn des Forschungsvorhabens wurden im Rahmen der Teilprojekte B1 und B2 des SFB 532 alkalibeständige Glas- und Carbonrovings eingesetzt, die zu offenmaschigen 2D-Textilien verarbeitet wurden. Untersuchungen des Verbund- und des Tragverhaltens der Verstärkungsstrukturen in Pull-Out- und Dehnkörperversuchen haben gezeigt, dass das Potential der Verstärkungsfasern aufgrund einer unvollständiger Durchtränkung der Bewehrung nicht vollständig ausgeschöpft werden kann. Auch Defizite bei der Produktionstechnik wurden erkannt und für zukünftige Entwicklungen analysiert. Um das Potential der verwendeten Verstärkungsfaser vollständiger auszuschöpfen, wurden innovative Garnkonstruktionen, die sich positiv auf den inneren und/oder den äußeren Verbund auswirken, entwickelt und erprobt. Anhand von Versuchsreihen auf der Textilebene wurden unterschiedliche Textilparameter, wie Art der Bindung, Gittergröße und Wirkfadenspannung, identifiziert, die unmittelbar die Tragfähigkeit der Verbundbauteile beeinflussen. Für die gängigen Produktionstechniken Laminieren, Gießen, Spritzen, Schleudern und Extrudieren wurden entsprechende Bewehrungskonstruktionen abgeleitet, die den Anforderungen des jeweiligen Prozess angepasst wurden. Ein weiterer Punkt der Forschungsaktivitäten stellte die Entwicklung der Maschinentechnik zur Herstellung von Verstärkungstextilien dar. Am Institut für Textiltechnik (ITA) der RWTH Aachen University wurde in Zusammenarbeit mit Industriepartnern ein Maschinenkonzept entwickelt und umgesetzt, das die Herstellung von 3D-Abstandsgewirken mit einer freien Gestaltung der Deckflächen mit marktrelevanten Produktionsgeschwindigkeiten ermöglicht. Zur gezielten Einstellung der Wirkfadenspannung wurde ein Regelungssystem konzipiert und technisch umgesetzt, mit dem eine reproduzierbare Fertigung von textilen Verstärkungsstrukturen möglich wird.
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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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Runefelt, Tove, and Harrison Viktor Lundmark. "Flatstickade distanstextiler och deras värmeisolerande förmåga : Hur kan förändring av masklängd och distanstråd påverka värmeisolering och vikt?" Thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-14767.

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Tillsammans med företaget Houdini Sportswear har det här projektets ämne och avgränsningar tagits fram. Houdini är ett svenskt klädföretag som designar friluftskläder av hög kvalitet och med stort fokus på funktion och komfort. De letar ständigt efter nya lösningar för utveckling kring smartare materialval, förbättrad funktion och komfort och mindre materialåtgång. I det här projektet vill Houdini undersöka hur man kan utveckla förhållandet mellan värmeisolering och vikt i flatstickade textila strukturer. Genom att öka textilens värmeisolerande förmåga med fokus på minskad vikt kan både materialåtgång och ökad funktion och komfort nås. En av de viktigaste faktorerna som bidrar till hög värmeisolerande förmåga är mängden instängd stilla luft i den textila strukturen. En tät ytstruktur och mycket volym med många luftfickor är därför intressant för att behålla och immobilisera luften i varan. Syftet med studien är att undersöka hur justeringar av parametrar i en distanstextil, stickad på flatstickmaskin påverkar den värmeisolerande förmågan. Tillsammans med Houdini har en viktbegränsning satts på 400 g/m2 och genom hela studien används endast en typ av ullgarn med garngrovlek Nm 48/2 för att skapa en vara som är i monomaterial och som relativt lätt kan brytas ner.   För att testa den värmeisolerande förmågan hos textilier idag använder Houdini och flera andra företag standardiserade testmetoder. På forskningsinstitutet Swerea IVF finns möjligheten att testa sina textilier med vald testmetod. Dessa metoder är dock otillgängliga och kräver avancerad utrustning som kan försvåra processen och ta lång tid. Studiens syfte är därför även att ta fram och jämföra en egen, mer lättillgänglig, framtagen testmetod för värmeisolering med två standardiserade testmetoder, SS-­ISO 5085-­1:2004 och ISO 11092:2014, för att se om och hur resultaten varierar mellan dem.   En förstudie genomförs där olika bindningar och två egna testmetoder för värmeisolering tas fram. En av testmetoderna och en distanstextil utvecklas vidare i huvudstudien. Fokus ligger på variationer av distanstrådens masklängd och placering. Samtliga prover från huvudstudien testas på den egna testmetoden och vissa utvalda prover testas på de två nämnda standardiserade testmetoderna på Swerea IVF. Sedan görs en jämförelse mellan resultaten.   Resultatet visar att det inte finns något tydligt samband mellan ökad masklängd och ökad värmeisoleringsförmåga. Däremot kan vissa slutsatser dras om att ökade intervaller av distanstrådens placering kan öka den värmeisolerande förmågan. Detta ökar dock även vikten. Resultat från mätningar med tre olika testmetoder visar att rangordningen av provers värmeisolerande förmåga skiljer sig mellan de olika metoderna. Den egna testmetoden bör därför vidareutvecklas men anses ändå ha potential för att jämföra provers värmeisolerande förmåga.
This study is a collaboration with the sportswear company Houdini Sportswear. They are looking for new ways to improve function and comfort in their garments with less material waste and choosing more sustainable materials. The aim of this study is to investigate the relationship between heat and weight in flat bed knitted spacer structures and what parameters that affects it. By creating a material with high heat insulating properties and with focus on reducing the weight it is possible to reduce the material waste and to achieve an improved function. One of the most important factors contributing to high insulation value is the amount of entrapped still air within the textile structure. This project therefore investigates how the stitch length and the placement of the spacer thread can affect the amount of air within the structure and thereby the thermal insulation. Together with Houdini a weight limit has been set to 400 g/m2 and only one type of wool yarn is used throughout the project in order to make a mono-­material fabric that can more easily degrade.   When measuring the thermal insulation properties of a fabric standardized methods are often used. These might have advanced equipment and be hard to access.The second aim of this project is therefore to develop a more accessible test method for measurement of thermal insulation in textiles and also to compare the results from the own method with the results from two standardized methods.   A pre study is made where different structures and two own developed test methods are being investigated. One of the test methods and a spacer binding is further developed in the main study where focus lies on reproducibility of the tests, and variations of the spacer thread stitch length and placement. All of the samples from the main study is tested on the own developed test method and some chosen samples are tested on two standardized test methods: ISO 5085-­1:2004 and ISO 11092:2014 at the Swedish research institute Swerea IVF. A comparison is made between the results from the three methods.   The results show that tests with our own developed test method has not been able to show a clear relationship between heat insulation and the changes of parameters in different textiles. Although, the samples that have been tested indicate that there might be a relationship between high heat insulating properties when the spacer thread is knitting more frequently. When comparing the results from the three different test methods the own developed method show different raking from the two standardized methods. The own developed test method should therefore be further developed. But still, after discussion with Valter Dejke, researcher at Swerea IVF, and Sibel Okcabol, quality manager at Swerea IVF, it is believed that the own test method could be used for comparing thermal insulating properties between textiles.
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Hübler, Jörg. "Textilverstärkte Zugmittel für die Antriebs- und Fördertechnik mit formschlüssiger Krafteinleitung." Doctoral thesis, Universitätsbibliothek Chemnitz, 2013. http://nbn-resolving.de/urn:nbn:de:bsz:ch1-qucosa-116986.

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Die Arbeit befasst sich mit einem neuen textilverstärkten Zugmittel mit formschlüssiger Krafteinleitung. Im Grundlagenteil werden Aufbau, Eigenschaften und Dimensionierungsgrundlagen von Rollenketten und Zahnriemenantrieben erörtert, sowie textile und elastomere Werkstoffe betrachtet. Aus den Betrachtungen zum Stand der Technik, der Maschenware mit hochfesten Filamentgarnen und deren polymeren Beschichtungen wird der Entwicklungsansatz abgeleitet. Mit Hilfe eines Spezialkettenwirkverfahrens werden die textilen Zugträger als Recht/Links-Maschenware hergestellt. Das besondere daran ist die teilungsgenaue Einbindung der Bolzen in die Maschenstruktur bei der Fertigung. Eine anschließende elastomere Beschichtung verbessert die mechanischen Eigenschaften erheblich und fixiert die Bolzen axial. Dabei werden reaktive Polyurethane im Gießverfahren und thermoplastische Elastomere im Spritzgießverfahren eingesetzt. Drei ausgewählte textile Bindungen mit verschiedenen Beschichtungen wurden statisch und dynamisch, anhand von Proben und endlos verbundenen Zugmitteln, ausführlich untersucht. Die daraus abgeleiteten Bauteil-Wöhlerlinien und Leistungsdiagramme bilden die Grundlage zur Auslegung der textilverstärkten Zugmittel für Anwendungen im Maschinenbau
The dissertation deals with a new textile reinforced with form-closed force application. The basis of structure, properties and sizing basics of roller chain drives and belt drives are discussed and considered textile and elastomeric materials. From consideration of the prior art, the knitted fabric with high tenacity filament of polymeric coatings and their development approach is derived. Using a special knitting process, the textile chain tension members are produced as a right / left-knit fabric. The special thing about it is the exact distribution of involvement of the pins in the mesh structure during manufacturing. Subsequent elastomeric coating significantly improves the mechanical properties and fixes the bolt axially. These reactive polyurethanes by casting and thermoplastic elastomers are used in injection molding. Three selected textile bonds with different coatings were statically and dynamically examine in detail the basis of samples and associated endless traction means. The derived component S/N curves and performance charts are the basis for the design of textile-reinforced tension means for applications in mechanical engineering
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Books on the topic "Spacer warp knit fabric"

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Wilkens, Chris. Warp knit fabric construction: From stitch formation to stitch construction. Heusenstamm: U. Wilkens Verlag, 1995.

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Masters, John E. Translaminar fracture toughness of a composite wing skin made of stitched warp-knit fabric: Under contract NAS1-96014. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1997.

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R, Reeder James, Yuan F. G, and Langley Research Center, eds. Fracture behavior of a stitched warp-knit carbon fabric composite. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 2001.

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Parker, Philip M. The 2007-2012 World Outlook for Weft, Lace, and Warp Knit Fabric Mills. ICON Group International, Inc., 2006.

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Parker, Philip M. The 2007-2012 World Outlook for Broadwoven, Weft, Lace, and Warp Knit Fabric. ICON Group International, Inc., 2006.

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Inc, ICON Group International. The 2000-2005 Outlook for Weft, Lace, and Warp Knit Fabric Mills in Europe. Icon Group International, 2001.

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Parker, Philip M. The 2007-2012 Outlook for Broadwoven, Weft, Lace, and Warp Knit Fabric in Japan. ICON Group International, Inc., 2006.

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Inc, ICON Group International. The 2000-2005 Outlook for Weft, Lace, and Warp Knit Fabric Mills in Oceana. Icon Group International, 2001.

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Parker, Philip M. The 2007-2012 Outlook for Broadwoven, Weft, Lace, and Warp Knit Fabric in India. ICON Group International, Inc., 2006.

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Inc, ICON Group International. The 2000-2005 Outlook for Weft, Lace, and Warp Knit Fabric Mills in Asia. Icon Group International, 2001.

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Book chapters on the topic "Spacer warp knit fabric"

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Chun, Heoung Jae, H. W. Kim, and Joon Hyung Byun. "Elastic Behaviors of Stitched Multi-Axial Warp Knit Fabric Composites." In Fracture and Strength of Solids VI, 817–22. Stafa: Trans Tech Publications Ltd., 2006. http://dx.doi.org/10.4028/0-87849-989-x.817.

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Conference papers on the topic "Spacer warp knit fabric"

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Yuan, F., and S. Yang. "The application of fracture mechanics to stitched warp-knit fabric composites." In 39th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference and Exhibit. Reston, Virigina: American Institute of Aeronautics and Astronautics, 1998. http://dx.doi.org/10.2514/6.1998-2025.

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Wijesingha, Dimuthu, and Buddhika Jayasekara. "Detection of Defects on Warp-knit Fabric Surfaces Using Self Organizing Map." In 2018 Moratuwa Engineering Research Conference (MERCon). IEEE, 2018. http://dx.doi.org/10.1109/mercon.2018.8421944.

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