Technical Innovation In Fabric & Fiber..
safirul189
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11 slides
Sep 13, 2024
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About This Presentation
It's a presentation of Textile Apparel & Merchandising
Slide Content
Technological Innovation In Fabric & Fiber Presented By, Md Safirul Islam Id:212030081 Department Of Textile Engineering University Of Scholars
TABILE OF CONTENTS: Introduction to Technological Advancements in Fabric and Fiber Smart Textiles (E-textiles) Nanotechnology in Fabrics Recycled and Sustainable Fibers Anti-microbial and Anti-odor Fabrics High-performance Synthetic Fibers Bioengineered and Lab-grown Fibers Conclusion: The Future of Fabric and Fiber
Introduction to Technological Advancements in Fabric and Fiber Technological advancements in fabric and fiber refer to the innovations and improvements in materials, processes, and technologies used to develop textiles. These advancements include the creation of new synthetic fibers, improvements in natural fibers, and innovations in weaving, knitting, and finishing techniques.
Smart Textiles (E-textiles) Smart textiles, or E-textiles, are fabrics embedded with electronic components like sensors and circuits. They can monitor health metrics such as heart rate and body temperature or provide interactive features for military or sports applications. These fabrics enable real-time data collection, adding value to everyday clothing.
Nanotechnology in Fabrics Nanotechnology is used to enhance fabrics with unique properties, such as water repellency , stain resistance, UV protection, and antimicrobial qualities. By manipulating materials at the nano level, these fabrics offer superior performance without sacrificing comfort or appearance. A common application is self-cleaning textiles.
Anti-microbial and Anti- odor Fabrics Anti-microbial fabrics are designed to inhibit the growth of bacteria and resist order , making them ideal for sportswear and medical textiles. These fabrics often incorporate silver nanoparticles or copper fibers , which provide natural antimicrobial properties, promoting better hygiene and comfort.
Recycled and Sustainable Fibers The demand for eco-friendly textiles has led to the development of fibers made from recycled materials, such as plastic bottles, or bio-based resources like bamboo. These sustainable fibers help reduce environmental impact by conserving water, energy, and raw materials, contributing to more responsible textile production.
High-performance Synthetic Fibers High-performance fibers like Kevlar, Dyneema , and carbon fiber are known for their exceptional strength, durability, and lightweight properties. These fibers are used in demanding applications like bulletproof vests, industrial ropes, and high-end sports equipment, where strength and performance are critical
Bioengineered and Lab-grown Fibers Bioengineered fibers are materials designed and produced using biological processes or engineered organisms, such as bacteria, yeast, or other cells, to create fibers with specific properties.
Conclusion: The Future of Fabric and Fiber The presentation concludes by highlighting the growing integration of technology and sustainability in the textile industry. Future innovations will continue to push boundaries, improving fabric performance while reducing environmental impact. This sets the stage for a more efficient and eco-friendly textile future.
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