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Tytuł artykułu

Method of Structure Design and Heat Treatment of an Integrated Consolidation Sensor and Embedded Temperature Sensing Fabric

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Metoda projektowania struktury zintegrowanego czujnika temperatury wbudowanego w tkaninę
Języki publikacji
EN
Abstrakty
EN
In order to solve the problem of temperature sensors easily slipping and improve the precision of temperature measurement in temperature sensing fabric, a specially designed fabric was developed. In this paper, the fabric comprised plain and multi-layered fabric. Sensors were embedded into the multi-layered fabric. The multi-layered fabric was treated by partial heat treatment to make the temperature sensors be fixed to the fabric. The temperature sensing fabrics were measured before and after the partial heat treatment. The results showed that during the heat treatment, the number of fabric layers and fabric organization had an effect on temperature measurement, and the values measured after partial heat treatment were closer to the true value than without treatment. In addition, with an increase in the number of fabric layesr, the values measured were closer to the real value. And the measurement results were closer to the true value when the multi-layered fabric’s organizational structure was plain.
PL
Dla uzyskania hybrydowego elementu pomiarowego opracowano taką strukturę tkaniny aby móc umieścić w niej czujniki temperatury. Wielowarstwową tkaninę poddano odpowiedniej obróbce termicznej umożliwiającej zamocowanie czujników w tkaninie. Stwierdzono, że ilość warstw tkaniny i ich rozmieszczenie ma wyraźny wpływ na uzyskiwaną dokładność pomiaru temperatury. Przy zwiększeniu ilości warstw wzrastała dokładność pomiaru.
Rocznik
Strony
68--72
Opis fizyczny
Bibliogr. 22 poz., rys., tab.
Twórcy
autor
  • Department of Textile Science and Engineering, Wuhan Textile University, Wuhan, P. R. China
autor
  • School of Textiles, Tianjin Polytechnic University, Tianjin, P. R. China
autor
  • School of Textiles, Tianjin Polytechnic University, Tianjin, P. R. China
autor
  • Department of Textile Science and Engineering, Wuhan Textile University, Wuhan, P. R. China
autor
Bibliografia
  • 1. Hassan M, Qashqary K, Hassan H A, et al. Influence of sportswear fabric properties on the health and performance of athletes[J]. Fibres and Textiles in Eastern Europe 2012; 20, 4(93): 82-88.
  • 2. Kovacevic S, Schwarz I G, Durasevic V. Analysis of Printed Fabrics for Military Camouflage Clothing[J]. Fibres and Textiles in Eastern Europe 2012; 20, 3(92): 82-86.
  • 3. Castano L M, Flatau A B. Smart fabric sensors and e-textile technologies: a review [J]. Smart Materials & Structures 2014; 23,5:1-3.
  • 4. Thangakameshwaran N, Santhoskumar A U. Cotton Fabric Dipped in Carbon Nano Tube Ink for Smart Textile Applications [J]. International Journal of Polymeric Materials 2014; 63,11: 557-562.
  • 5. Klewer J, Cheung A, Van Pieterson L, et al. Temperature sensor for body temperature measurement: Patent US8716629. 2014 US,2014.
  • 6. Locher I, Kirstein T and Troster G. Temperature profiles estimation with smart textiles [J]. IEEE Sensors Journal 2005; 1: 1-8.
  • 7. Li Y, Cheng X Y, Leung M Y, et al. A flexible strain sensor from polypyrrole-coated fabrics [J]. Synthetic Metals 2005; 155,1: 89-94.
  • 8. Caldara M, Colleoni C, Guido E, et al. A Wearable Sweat pH and Body Temperature Sensor Platform for Health, Fitness, and Wellness Applications [M]// Sensors and Microsystems. Springer International Publishing 2014; 268: 431-434.
  • 9. Senthilkumar M, Kumar LA, Anbumani N. Design and Development of a Pressure Sensing Device for Analysing the Pressure Comfort of Elastic Garments [J]. Fibres and Textiles in Eastern Europe 2012; 20, 1(90): 64-69.
  • 10. El-Sherif M A, Yuan J, Macdiarmid A, et al. Fiber Optic Sensors and Smart Fabrics [J]. Journal of Intelligent Material Systems & Structures 2000; 11, 5: 407-414.
  • 11. Zhou HT, Zhang ML, Liu SB, et al. Researchon how to weave optical fiber grating temperature sensor into fabric [J]. Shanghai Textile Science & Technology 2010; l38: 19-22.
  • 12. Chatterjee A, Singh P. Studies on Wicking Behaviour of Polyester Fabric [J]. Journal of Textiles 2014; 2014: 1-11.
  • 13. Nawaz N, Nayak R. Seamless garments - Garment Manufacturing Technology -14 [J]. Garment Manufacturing Technology 2015; 2015: 373–383.
  • 14. Wang J, Long H, Soltanian S, et al. Electro-mechanical properties of knitted wearable sensors: Part 2–Parametric study and experimental verification[J]. Textile Research Journal 2013; 83, 2: 200-213.
  • 15. Li LI, Man AW, Yi LI, et al. A Novel Design Method for Intelligent Clothing Embedded Sensor System Based on Knitting Technology and Garment Design[J]. Textile Research Journal 2009; 79: 1670-1679.
  • 16. Vasile S, Grabowska, Ciesielska-Wróbel I L, et al. Analysis of Hybrid Woven Fabrics with Shape Memory Alloys Wires Embedded[J]. Fibres and Textiles in Eastern Europe 2010; 19, 1(78): 64-69.
  • 17. Nejman A, Kamińska I, Giesz P, et al. Thermal Stability of Polyester Fabric with Polyacrylic Coatings[J]. Fibres and Textiles in Eastern Europe 2015; 23,4(112): 73-82.
  • 18. Farboodmanesh S, Chen J, Mead J L, et al. Effect of Coating Thickness and Penetration on Shear Behavior of Coated Fabrics[J]. Journal of Elastomers & Plastics 2005; 37, 3: 197-227.
  • 19. Ersoy M S, Onder E. Electroless silver coating on glass stitched fabrics for electromagnetic shielding applications[J]. Textile Research Journal 2014; 84,19: 2103-2114.
  • 20. Wang F, Zhu B, Shu L, et al. Flexible pressure sensors for smart protective clothing against impact loading[J]. Smart Materials & Structures 2014; 23, 23: 247-247.
  • 21. Zhang R Q, Deng N P. A method of temperature sensor fabric weave. Patent CN 104264315 A, China, 2015.
  • 22. Zhang R Q, Deng N P. A heat treatment apparatus of temperature sensor fabric. Patent ZL 2014202749104, China, 2014.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ec8b639c-0049-46e2-9036-3556cbb74e1c
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