压电纤维复合材料的发展、模拟及应用(英文)

压电纤维复合材料的发展、模拟及应用(英文)Title: Development, Simulation, and Applications of Piezoelectric Fiber Composi

() 压电纤维复合材料的发展、模拟及应用英文 Title: Development, Simulation, and Applications of Piezoelectric Fiber Composite Materials Abstract: Piezoelectric fiber composite materials have gained significant attention in recent years due to their unique combination of electrical and mechanical properties. This paper provides an overview of the development, simulation, and applications of these materials. The discussion focuses on the fabrication techniques, characterizations, modeling and simulations, as well as the diverse range of fields where piezoelectric fiber composite materials are being utilized. The potential future directions in this field are also explored. 1. Introduction: Piezoelectric materials can convert mechanical energy into electrical energy and vice versa. The development of piezoelectric fiber composite materials has opened up new avenues for engineering applications, especially in the fields of smart structures, energy harvesting, sensing, and actuation. This paper aims to summarize the progress made in the development, modeling, and applications of these materials. 2. Fabrication Techniques: Various fabrication techniques have been employed to produce piezoelectric fiber composite materials. These include the polymer matrix composite method, sol-gel technique, electrospinning, and melt spinning. Each technique offers unique advantages in terms of scalability, control over morphology, and ease of integration into complex structures. 3. Characterizations: Characterization techniques are essential to understand the electrical and mechanical properties of piezoelectric fiber composites. Commonly used techniques include scanning electron microscopy (SEM), X-ray diffraction (XRD), electrical impedance analysis, and dynamic mechanical analysis (DMA). These techniques provide information about the microstructure, crystalline phases, and electrical/microbial responses of the materials. 4. Modeling and Simulation: