| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Research Progress of Magnetostrictive Materials |
| ZHAO Qizhong1, DAI Zhiyong1, LUO Wenpeng2, LI Xietao2, MA Jing2, LIU Jie2, ZHANG Yin1, ZHOU Chao1, YANG Sen1, TIAN Fanghua1,*
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1 School of Physics, Xi’an Jiaotong University, Xi’an 710049, China
2 Xi’an Gangyan Special Alloy Co., Ltd., Xi’an 710089, China |
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Abstract Magnetostrictive materials have attracted considerable scholarly attention owing to their extensive applications in sensors, sonar, actuators, and related fields. This paper presents a systematic review of recent advancements and potential applications of magnetostrictive mate-rials, focusing on the fundamental mechanisms of the magnetostrictive effect, principal material systems, and fabrication methods. Through detailed comparative analysis, the advantages and limitations of existing material systems are elucidated to inform future development. The influence of various fabrication techniques on microstructural features and their consequent effects on magnetostrictive performance are critically examined, providing theoretical guidance for process optimization. Furthermore, the paper evaluates the application prospects and technical challenges of different materials across diverse domains. By synthesizing current research outcomes, the paper aims to establish a theoretical foundation for advancing high-performance magnetostrictive materials and to delineate strategic directions for forthcoming investigations.
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Published:
Online: 2026-04-16
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2026, Vol. 40 
