ELECTROCONDUCTIVE COMPOSITE BASED ON NICKEL MICROPARTICLES FOR ELECTRODES, SENSORS AND ELECTROMAGNETIC SCREENS

ELECTROCONDUCTIVE COMPOSITE BASED ON NICKEL MICROPARTICLES FOR ELECTRODES, SENSORS AND ELECTROMAGNETIC SCREENS

The invention relates to a process for preparing an electroconductive composite for making textile electrodes, sensors or screens for electromagnetic attenuation. According to the invention, the process consists of the stages of making a textile support from 100% cotton yarns in warp and weft, the f...

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Bibliographische Detailangaben
Hauptverfasser: SOARE VASILE, AILENI RALUCA MARIA, CHIRIAC LAURA, TOMA DOINA
Format: Patent
Sprache:eng ; rum
Schlagworte:
CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOIDCHEMISTRY
PERFORMING OPERATIONS
PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
THEIR RELEVANT APPARATUS
TRANSPORTING
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Zusammenfassung:The invention relates to a process for preparing an electroconductive composite for making textile electrodes, sensors or screens for electromagnetic attenuation. According to the invention, the process consists of the stages of making a textile support from 100% cotton yarns in warp and weft, the functionalization of the woven support by treatment in a medium of plasma with oxygen, at a pressure of 100...200 mTorr, a power of 100...200 W, at a frequency of 13.56 MHz, for 2...6 min, the deposition of an electroconductive polymer paste based on Ni microparticles and polyvinyl alcohol solution by the method of film forming, scraping the print on the textile surface, controlled crosslinking by using a hot air heating system based on electrical resistors, at a temperature of 150...170°C, for 2...5 min, which results in an electroconductive composite material with a surface resistance of 101...103 Ohms. Invenţia se referă la un procedeu de obţinere a unui compozit electroconductiv pentru realizarea unor electrozi textili, senzori sau ecrane pentru atenuare electromagnetică. Procedeul, conform invenţiei, constă în etapele de realizarea unui suport textil din 100% fire de bumbac în urzeală şi bătătură, funcţionalizarea suportului ţesut prin tratare în mediu de plasmă cu oxigen, la o presiune de 100...200 mTorr, putere de 100...200 W, la o frecvenţă de 13,56MHz, timp de 2...6 min, depunerea unei paste polimerice electroconductive pe bază de microparticule de Ni şi soluţie de alcool polivinilic prin metoda peliculizării, raclării imprimării pe suprafaţa textilă, reticularea controlată utilizând un sistem de încălzire cu aer cald pe bază de rezistenţe electrice, la o temperatură de 150...170°C, timp de 2...5 min, din care rezultă un material compozit electroconductiv având o rezistenţă de suprafaţă de 101...103 Ω.