| 1. |
- Backe, Carin, et al.
(författare)
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Serially connected EAP based tape yarns for in-air actuation using textile structures
- 2023
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Konferensbidrag (övrigt vetenskapligt/konstnärligt)abstract
- Smart textiles that have the capability for actuation are of great interest for creating wearables and haptic devices. Through the use of textile fabric production processes electroactive polymeric materials in the form of film-based yarns can be integrated and combined with passive yarns to create soft, actuating fabrics. This way single EAP materials can be transformed into segments consisting of multiple EAP yarns working together. Furthermore, these segments can be positioned within a fabric to work individually or simultaneously in different patterns by use of incorporated conductive yarn paths. While the chase for additivity in force is a long-standing part of developing new actuator structures, so is the need for additivity in displacement motion. Here we construct an actuating textile fabric through the process of weaving that is able to operate in-air using polypyrrole-based tape yarns with choline acetate ionic liquid. Finding the balance between the weaving parameters turned out to be key. We found that in a vertically suspended arrangement, a three-segment serially connected fabric assembly demonstrated an accumulative effect in displacement and a joint-like motion behaviour. This opens up for more complicated motion patterns to be created through textile processing of EAP materials.
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| 2. |
- Backe, Carin, et al.
(författare)
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Towards responding fabrics : textile processing of thin threadlike pneumatic actuators
- 2019
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Konferensbidrag (övrigt vetenskapligt/konstnärligt)abstract
- With few exceptions textiles have not been considered as means for obtaining actuation. This is surprising as textiles have many advantageous characteristics such as the D=M property, which stands for Doing Devices while Making the Material. This means that functions are introduced simultaneously as the material, such as in a weave, is built up tread by tread. Traditionally a thread could have a certain colour so in total an aesthetical pattern is formed. Now we take a step beyond this working with threadshaving more advanced functions. Included are fiber formed structures showing actuation behavior. This we employ here. We make fiber formed actuating structures (FAS) following the McKibben principle with braided mesh sleeves surrounding a prolonged inflatable tube. Here we worked with relatively large diameters in the relaxed state but show that there is prospect for obtaining relaxed diameters of less than 1 mm approaching the range of large scale weaving manufacturing. We study the behavior of these fibre formed actuating structures individually. Length changes obtained are -20%.We then make textile constructions by integrating several of these FASes with textile processing. By this, we build simple models of fabrics showing actuating behavior. This study shows how textile constructions can support or hinder overall movement. It is a first logical step in order to get an understanding of actuating fabrics based also on other actuating mechanisms.
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| 3. |
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| 4. |
- Björkquist, Anna, et al.
(författare)
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Towards Implementation of a Home-Based Phantom Limb Pain Treatment Facilitated by Textile-Electrode System - A Case Study
- 2023
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Ingår i: Caring is Sharing — Exploiting the Value in Data for Health and Innovation. - : IOS Press. - 9781643683881 - 9781643683898 ; , s. 682-683
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Konferensbidrag (refereegranskat)abstract
- This case study reports the use of a new textile-electrode system for self-administered Phantom Motor Execution (PME) treatment at home in one patient with Phantom Limb Pain (PLP). In follow-up interviews, the patient reported reduced pain, increased mobility, and improved mental health, and aspects such as motivation, usability, support, and treatment outcome, could be recognized from an earlier study as crucial for successful implementation and adoption of the home-based long-term treatment. The findings are of interest to developers, providers, users, and researchers planning home-based clinical studies and/or scenarios based on technology-assisted treatment.
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| 5. |
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| 6. |
- Eriksson, Siw, et al.
(författare)
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Three-dimensional multilayer fabric structures for interactive textiles
- 2011
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Ingår i: 3rd World Conference on 3D Fabrics and Their Applications; Wuhan; China; 20 April 2011 through 21 April 2011. - 9781846260490 ; , s. 63-67
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Konferensbidrag (refereegranskat)abstract
- Abstract. The integration of performances in interactive textile fabric system has so far been rather complicated since they are based on multilayer or three-dimensional principles. These structures are today mainly put together by means of several processes, which is laborious and time consuming. In this interdisciplinary study we have combined the principle of a three-dimensional multilayer weaving process and interactive textiles structures in order to enable the manufacturing of interactive textile structure in one process. The process is investigated using a manual reconstructed loom and the approach has been to use the 3D structures in order to integrate and organize conductive and compressive spacer layers as a textile capacitive structure. Measurements on such a structure was done by construction a first order passive high pass filter and using the fabric sample as the capacitor and a 1MΩ resistor. The behavior of the measurement of the capacitive sensor is quite close to the theoretical calculation and already at this stage the structure might be used to indicate the presence of a pressure. In this project we have shown that a three-dimensional structure enables the development of interactive textiles in one process. Further the concept of using a rebuilt manual loom has shown great potential in early research stages. It is considerable saving time and resources since, in this case, it is easy to reconstruct the loom design compared to performing similar reconstruction on a machine. Future research will focus on developing other types of interactive structures. Another issue will be to scale down the size of the structures in order to get thinner and more flexible qualities.
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| 7. |
- Eriksson, Siw, et al.
(författare)
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Tredimensionell vävteknik med möjliga tillämpningar inom medicinsk teknik
- 2011
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Konferensbidrag (övrigt vetenskapligt/konstnärligt)abstract
- Integreringen av interaktiva egenskaper i teknisk textil har rönt stort intresse inom textil-forskningen de senaste åren. Med interaktiva textila strukturer avses textila system som interagerar med sin omgivning i någon mening. Ett sätt att åtadkomma dessa interaktiva strukturer är att foga samman lager av olika struktur eller material där varje lager tillför textilen/det textila systemet olika egenskaper. Det typiska tillvägagångssättet för att sammanfoga olika lager av textila material är att använda någon form av lamineringsteknik. Föreliggande projekt rör en ny vävteknik som möjliggör att flera textila lager med olika egenskaper vävs samman i en och samma process utan de tillsatser eller extra hantering som krävs vid laminering. Utöver de uppenbara produktionstekniska fördelarna möjliggör kombinationen av olika egenskaper i en lagerstruktur också att speciella krav på slutprodukten lättare kan tillgodoses. Det medicintekniska området förväntas ha stor nytta av textila strukturer som kan utformas i tre dimensioner eller kombinera olika egenskaper i en och samma struktur. Syftet är att demonstrera hur en nyutvecklad vävteknik för tredimensionella strukturer kan tillämpas för att tillverka interaktiva textila strukturer i en och samma tillverkningsprocess. I detta delprojekt har den tredimensionella tekniken använts för att utveckla en kapacitiv struktur utformad helt i textil. Genom mindre modifieringar av och tillägg till en 16-skaftad datorstyrd manuell prototypvävstol har två ledande och ett isolerande skikt kombinerats för att realisera en textilbaserad kondensator. I ett första test realiserades ett enkelt högpassfilter med den kapacitiva textila strukturen som kondensator. Filtrets egenskaper visade sig väl följa den förväntade filterkarakteristiken. Den nyutvecklade tredimensionella vävtekniken förväntas ha stora tillämpningsmöjligheter inom det medicintekniska området.
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| 8. |
- Euler, Luisa, et al.
(författare)
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Textile Electrodes : Influence of Electrode Construction and Pressure on Stimulation Performance in Neuromuscular Electrical Stimulation (NMES)
- 2021
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Ingår i: Engineering in Medicine & Biology Society (EMBC), 2021 43rd Annual International Conference of the IEEE. - : IEEE. - 9781728111797 ; 2021, s. 1305-1308
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Konferensbidrag (refereegranskat)abstract
- The major reason for preventable hospital death isvenous thromboembolism (VTE). Non-pharmacologicaltreatment options include electrical stimulation or compressiontherapy to improve blood flow in the extremities. Textileelectrodes offer potential to replace bulky devices commonlyused in this field, thereby improving the user compliance. In thiswork, the performance of dry and wet knitted electrodes incombination with pressure application to the electrode wasevaluated in neuromuscular electrical stimulation (NMES). Amotor point stimulation on the calf was performed on ninehealthy subjects to induce a plantarflexion and the requiredstimulation intensity as well as the perceived pain were assessed.The performance of the different electrode constructions wascompared and the influence of the pressure application wasanalysed. The results show that wet textile electrodes (0.9 %saline solution) perform significantly better than dry electrodes.However, opportunities were found for improving theperformance of dry textile electrodes by using an uneven surfacetopography in combination with an intermediate to highpressure application to the electrode (> 20 mmHg), e.g. by usinga compression stocking. Moreover, the smaller of the two testedelectrode areas (16 cm2; 32 cm2) appears to be favourable interms of stimulation comfort and efficiency.
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| 9. |
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| 10. |
- Guo, Li, et al.
(författare)
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3D Composite Textile Characteristics Relevant in Pressure Ulcer Management
- 2015
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Konferensbidrag (refereegranskat)abstract
- INTRODUCTIONEffective ulcer management requires the wound to be in a moist but still breathable environment, to facilitate healing, absorb exudates and prevent maceration. One of the applicable methods to achieve this is the use of composite dressings. Most composite dressings are made of three layers to provide absorption and a bacterial barrier in a non- or semi-adherent cover. Various common textile materials such as cotton, polyester, polypropylene and cellulose can be used as different layers in those wound dressings. In addition to these established dressings, electrical stimulation therapy may be used in treating ulcers. It has been reported that electrical stimulation can reduce the area and depth of the wound in a shortened time compared to conventional treatment. In summary, encouraging wound healing results have been obtained both from using composite wound dressing and from applying of electrical stimulation. The aim of this study is to present a conceptual design based on a woven 3D structure that combines the composite wound dressing properties with electrical stimulation for pressure ulcers healing/management.METHODIn the suggested structure, different layers in X, Y and Z led were designed with different materials for different purposes. The top layer consisting of a low-density web to provide a non-adherent layer combined with two textile electrodes made of conductive threads, the middle layer contributes pressure release and absorption of exudates, and the bottom layer next to the wound for moisture keeping while still allowing adequate ventilation.Two key properties were addressed in the study: pressure release and the possibility to provide electrical stimulation of the wound. Simulation with COMSOL Multiphysics was used to study pressure distribution according to Hertz contact theory. The surface resistance of the electrodes were also studied using in-house designed four-point measurement probes.RESULTSThe simulation results show the composite structure to exhibit good pressure release properties. Surface resistance testing proved that the textile electrodes have resistance in the magnitude of 102 indicating that textile electrodes can be used for electrical stimulation in ulcers healing.The first results from this study demonstrate the feasibility to design a textile system combining established composite dressings solutions with means for electrical stimulation based on 3D weaving technique to be applied in pressure ulcer healing.
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