Temperature-Dependent Shape-Memory Textiles: Physical Principles and Applications

Textiles have been pivotal to economies and social relationships throughout history. In today’s world, there is an unprecedented demand for smart materials. The advent of textile fabrics, crafted from high-quality, high-performance fibers, has enabled the incorporation specific functions into clothing apparel brands. Notably, rise fabrics evident in astronaut suits designed regulate temperature control muscle vibrations. Moreover, scope these products expanded beyond everyday wear, encompassing fields such as medicine healthcare, ecology/environmental protection, military aerospace. This review explores recent advancements challenges associated with intelligent particularly temperature-dependent shape-memory metamaterials. potential innovative materials enhance traditional fabrics’ overall functionality utility immense, especially domains medical devices, fashion, entertainment, defense. Crucially, ensuring user comfort a primary consideration applications promoting widespread adoption wearable devices. Developing devices necessitates multidisciplinary approach that combines circuit design expertise, knowledge materials, proficiency microelectronics, deep understanding chemistry production. synergy across diverse vital unlocking full enabling their broad implementation. By embracing this comprehensive approach, we can pave way groundbreaking advances technology, driving innovation progress field.