Abstract: This research explores the transformative role of smart materials in engineering, focusing on their integration into smart structures to enhance infrastructure resilience, sustainability, and efficiency. Unlike traditional materials, smart materials respond to environmental stimuli—such as temperature, pressure, or electric fields—enabling self-healing, adaptive behavior, and energy optimization. Key types, including piezoelectric, shape-memory alloys, electrochromic, thermochromic, and magnetostrictive materials, are examined for their unique capabilities and applications. Smart structures utilizing these materials exhibit advanced functionalities, from self-repairing concrete to energyharvesting systems, offering significant benefits in sustainability, cost-efficiency, and resilience against environmental stresses. However, challenges such as high initial costs, durability concerns, and integration barriers persist. This study highlights the current limitations and future directions for smart materials, aiming to foster more sustainable, adaptive, and long-lasting infrastructure solutions in the evolving landscape of civil engineering.
Keywords: smart materials, smart structures, smart materials, civil engineering.
Title: Smart Materials and Smart Structures: Transforming Engineering and Infrastructure
Author: MESHAL ALBZAIE
International Journal of Civil and Structural Engineering Research
ISSN 2348-7607 (Online)
Vol. 12, Issue 2, October 2024 - March 2025
Page No: 42-47
Research Publish Journals
Website: www.researchpublish.com
Published Date: 12-November-2024
