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العنوان
Developing characterization of a New Wearable Textile :
المؤلف
EL-Maghrabi, Heba Mahmoud Ali.
هيئة الاعداد
باحث / هبة محمود علي حامد المغربي
مشرف / إبراهيم عبده الهواري
hawary_45@yahoo.com
مشرف / محمد رزق محمد رزق
mrmrizk@ieee.org
مشرف / شيرين نبيل الكاتب
k_sherien@yahoo.com
مناقش / شيرويت حسين عبد اللطيف الغلمي
shgholmy@yahoo.com
مناقش / جمال محمد أبو السعود تركي
الموضوع
Textile Fabrics.
تاريخ النشر
2022.
عدد الصفحات
89 p. :
اللغة
الإنجليزية
الدرجة
الدكتوراه
التخصص
الهندسة (متفرقات)
تاريخ الإجازة
31/12/2022
مكان الإجازة
جامعة الاسكندريه - كلية الهندسة - هندسة الغزل والنسيج
الفهرس
Only 14 pages are availabe for public view

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from 112

Abstract

Today wearable electronics are playing a vital role in many applications such as military, medical applications, telecommunications, and health care garments. So, Intelligent Textile is a new technology approach which in demand nowadays and has been used in different fields. Many companies play in upgrading their products to have customers satisfied when getting them needs. where there are many applications of Smart Textiles during our life as e-textile materials (electro-textiles, e-textile or electronic textiles) which is an overlap of one of the textile materials by adding an electronic spec known as composite fibers by electrospinning techniques. Our approach here consists of two parts: one of them is the fiber material (polyamide) produced by combining with connected material (additives) which has a conductive property (carbon Nano-tube, graphene, Silver and copper. etc.). So, we will here select nylon yarn (base material) to soluble in a liquid solution of formic acid and Carbon Nano-Tube CNT or Graphene Oxide GO (conductive additives) with three different concentrations (10, 20 and 30) wt. % for each. The feeding of solution on the syringe as the electrospinning feeding part to start the production of a composite nanofibers to achieve the goal from this research (conductive composite fibers with various characterization) then will use them to contain an electronic application that known as intelligent textiles. The studying of any additives’ effects on the nanofibers’ characterizations by adding new properties or improving any of main base material properties which called smart devices like sensors or other electric device. We will work on using these intelligent fibers with them specifications in the life various usage fields like sensors, smart instruments, radio frequency identification readers, Sports clothes, biomedical to follow the patient, smart furniture, smart fabric, and others.