Textile advancements in civil engineering

Abstract

This article explores the transformative impact of advancements in textile materials on sustainable development in civil engineering. Incorporating bast fibres like flax and hemp, along with innovative hybrid systems, has led to more robust, lighter, and cost-effective solutions for reinforcement. Geotextiles, developed from these textiles, are crucial in protecting against natural disasters and climate change impacts. Sustainable development is further supported by using natural fibre-reinforced composites, promoting economic growth in regions with abundant fibre resources. Integrating cutting-edge textiles in civil engineering projects offers enhanced structural strength, durability, and resistance to environmental factors. Additionally, the article highlights the role of textile technology in paving the way for green engineering solutions, addressing climate change impacts, and providing eco-friendly alternatives in construction. This article also emphasizes the future of building with eco-friendly reinforcement solutions, focusing on the benefits of textile reinforcement over traditional steel. Incorporating fabric sensors in advanced textiles enables real-time structural health monitoring, facilitating proactive maintenance and repairs. The potential of textiles to revolutionize infrastructure is discussed, emphasizing their contribution to a sustainable future for the construction industry. Next-generation textile materials are explored, showcasing their impact on structural integrity, sustainability, and economic development. The article concludes by underscoring the promising role of textile materials in addressing modern engineering challenges and fostering a more resilient, environmentally friendly, and economically beneficial approach to construction.