Relation entre les densitées de chaîne et trame et sa influence sur l’aspect superficiel des tissus obtenus avec ligaments de relief

La estabilidad estructural de los tejidos depende del equilibrio entre la densidad, el título del hilo y el ligamento. De la combinación de estos tres elementos depende el grado de tupidez. Asimismo, para una misma tupidez, existen diferentes relaciones entre las densidades de urdimbre y trama, que variaran el aspecto del tejido.The structural stability of fabrics depends on the balance between density, yarn count and weave. From the combination of these three elements comes the tightness of the fabric, and for the same tightness, different combinations of warp and weft density are possible that may, therefore, change the appearance of the fabric.La stabilité structurelle des tissus dépend de l’équilibre entre la densité le titre du fil et l’armure. Pour une même épaisseur, peut y avoir différentes relations entre les comptes de chaîne et de trame, que peuvent varier l’aspect final du tissuPeer Reviewe

Truly form-factor–free industrially scalable system integration for electronic textile architectures with multifunctional fiber devices

Funding Information: This work was supported by the European Commission (H2020, 1D-NEON, grant agreement ID: 685758). J.M.K. and L.G.O. acknowledge the support from the U.K. Research and Innovation (EPSRC, EP/P027628/1). We thank Y. Bernstein and J. Faulkner for helping with grammar check. Funding Information: Acknowledgments Funding:ThisworkwassupportedbytheEuropeanCommission(H2020,1D-NEON,grant agreementID:685758).J.M.K.andL.G.O.acknowledgethesupportfromtheU.K.Researchand Innovation(EPSRC,EP/P027628/1).W ethankY .BernsteinandJ.Faulknerforhelpingwith grammarcheck.Authorcontributions:S.L.andJ.M.K.conceivedtheproject.S.L.,L.G.O.,P .B., R.Martins,andJ.M.K.supervisedtheproject.S.L.andH.L.developedF-PD.S.L.,Y .-W .L., G.-H.A., D.-W .S., J.I.S.,andS.C.developedF-SC.C.L.F ., A.S.,R.I.,P .B., andR.Martinsdevelopedfiber transistor.S.L.,H.L.,andS.C.developedF-LED.ThefiberdeviceswereevaluatedbyS.L.,H.W .C., D.-W .S., H.L.,S.J.,S.D.H.,S.Y .B., S.Z.,W .H.-C., Y .-H.S., X.-B.F ., T .H.L., J.-W .J., andY .K. The developmentofweavingprocesswasconductedbyS.L.,H.W .C., F .M.M., P .J., andV .G.C. Thelaser interconnectionwasdevelopedbyS.L.,H.W .C., K.U.,M.E.,andM.S.Thetextiledemonstrations werecharacterizedbyS.L.,H.W .C., D.-W .S., J.Y ., S.S.,U.E.,S.N.,A.C.,A.M.,R.Momentè,J.G.,N.D., S.M.,C.-H.K.,M.L.,A.N.,D.J.,M.C.,andY .C. ThismanuscriptwaswrittenbyS.L.andJ.M.K.and reviewed by H.W .C., D.-W .S., M.C.,L.G.O., P .B., E.F ., and G.A.J.A. All authors discussed the results andcommentedonthemanuscript.Competinginterests:Theauthorsdeclarethattheyhave nocompetinginterests.Dataandmaterialsavailability:Alldataneededtoevaluatethe conclusionsinthepaperarepresentinthepaperand/ortheSupplementaryMaterials. Publisher Copyright: Copyright © 2023 The Authors, some rights reserved.An integrated textile electronic system is reported here, enabling a truly free form factor system via textile manufacturing integration of fiber-based electronic components. Intelligent and smart systems require freedom of form factor, unrestricted design, and unlimited scale. Initial attempts to develop conductive fibers and textile electronics failed to achieve reliable integration and performance required for industrial-scale manufacturing of technical textiles by standard weaving technologies. Here, we present a textile electronic system with functional one-dimensional devices, including fiber photodetectors (as an input device), fiber supercapacitors (as an energy storage device), fiber field-effect transistors (as an electronic driving device), and fiber quantum dot light-emitting diodes (as an output device). As a proof of concept applicable to smart homes, a textile electronic system composed of multiple functional fiber components is demonstrated, enabling luminance modulation and letter indication depending on sunlight intensity.publishersversionpublishe

Relación entre las densidades de urdimbre y trama y su influencia en el aspecto superficial de los tejidos con ligamentos de relieve

La stabilité structurelle des tissus dépend de l’équilibre entre la densité le titre du fil et l’armure. Pour une même épaisseur, peut y avoir différentes relations entre les comptes de chaîne et de trame, que peuvent varier l’aspect final du tiss

Relation entre les densitées de chaîne et trame et sa influence sur l’aspect superficiel des tissus obtenus avec ligaments de relief

La estabilidad estructural de los tejidos depende del equilibrio entre la densidad, el título del hilo y el ligamento. De la combinación de estos tres elementos depende el grado de tupidez. Asimismo, para una misma tupidez, existen diferentes relaciones entre las densidades de urdimbre y trama, que variaran el aspecto del tejido.The structural stability of fabrics depends on the balance between density, yarn count and weave. From the combination of these three elements comes the tightness of the fabric, and for the same tightness, different combinations of warp and weft density are possible that may, therefore, change the appearance of the fabric.La stabilité structurelle des tissus dépend de l’équilibre entre la densité le titre du fil et l’armure. Pour une même épaisseur, peut y avoir différentes relations entre les comptes de chaîne et de trame, que peuvent varier l’aspect final du tissuPeer Reviewe

Smart textile lighting/display system with multifunctional fibre devices for large scale smart home and IoT applications.

Smart textiles consist of discrete devices fabricated from-or incorporated onto-fibres. Despite the tremendous progress in smart textiles for lighting/display applications, a large scale approach for a smart display system with integrated multifunctional devices in traditional textile platforms has yet to be demonstrated. Here we report the realisation of a fully operational 46-inch smart textile lighting/display system consisting of RGB fibrous LEDs coupled with multifunctional fibre devices that are capable of wireless power transmission, touch sensing, photodetection, environmental/biosignal monitoring, and energy storage. The smart textile display system exhibits full freedom of form factors, including flexibility, bendability, and rollability as a vivid RGB lighting/grey-level-controlled full colour display apparatus with embedded fibre devices that are configured to provide external stimuli detection. Our systematic design and integration strategies are transformational and provide the foundation for realising highly functional smart lighting/display textiles over large area for revolutionary applications on smart homes and internet of things (IoT).EU H2020, 1D-NEON, Grant agreement ID:685758 EPSRC, EP/P027628/