首页|期刊导航|材料工程|取向硅钢Goss晶粒异常长大机制的研究进展

取向硅钢Goss晶粒异常长大机制的研究进展OA

Research progress in abnormal grain growth mechanism of Goss grains in grain-oriented silicon steel

中文摘要英文摘要

取向硅钢是特高压变压器与高效节能配电变压器的核心软磁材料,其优异的磁性能(高磁感、低铁损)主要源于最终组织中锋锐的Goss织构.然而,Goss晶粒在退火过程中的异常长大机制极为复杂,至今尚未完全阐明,成为制约其磁性能进一步提升的关键瓶颈.本文梳理了Goss晶粒从热轧至高温退火全流程中的形核与长大行为,综述了关键工艺的优化策略;总结归纳了异常长大的Goss晶粒的典型特征,如晶粒尺寸、取向偏差、内部岛晶,重点分析了这些特征对磁性能的影响机理及相应调控方法.同时,系统总结了目前关于Goss异常长大机理的各类理论模型,分析了其原理、适用性及局限性.最后,提出了Goss异常长大机理研究的未来重点方向,以期为推动高性能取向硅钢的研发提供参考.

Grain-oriented silicon steel stands as the cornerstone soft-magnetic material for ultra-high voltage transformers and high-efficiency energy-saving distribution transformers.Its outstanding magnetic properties,characterized by high magnetic flux density and low core loss,are mainly ascribed to the well-defined Goss texture in the final microstructure.Nevertheless,the mechanism governing the abnormal grain growth(AGG)of Goss grains during annealing is exceedingly intricate and remains incompletely understood,posing a significant bottleneck that impedes the further enhancement of its magnetic performance.This review comprehensively summarizes the nucleation and growth behaviors of Goss grains throughout the entire manufacturing process,spanning from hot rolling to high-temperature annealing,and delineates the optimization strategies for key production processes.It also systematically synthesizes the typical features of abnormally grown Goss grains,such as grain size,orientation deviation,and internal island grains,with a particular emphasis on analyzing how these features influence magnetic properties and the corresponding regulatory approaches.Moreover,a thorough review is conducted on various theoretical models proposed for the AGG mechanism of Goss grains,covering their fundamental principles,applicability,and limitations.Finally,key research directions for future investigations into the Goss AGG mechanism are proposed,aiming to offer a valuable reference for promoting the development of high-performance grain-oriented silicon steel.

周威;程朝阳;邢玉冉;贾涓;刘静

武汉科技大学材料学部,武汉 430081武汉科技大学材料学部,武汉 430081武汉科技大学材料学部,武汉 430081武汉科技大学材料学部,武汉 430081武汉科技大学材料学部,武汉 430081||深圳大学材料学院广东省新能源材料服役安全重点实验室,广东 深圳 518060

矿业与冶金

高性能取向硅钢磁性能Goss晶粒异常长大

high-performance grain-oriented silicon steelmagnetic propertyGoss grainsabnormal grain growth

《材料工程》 2026 (4)

106-121,16

国家自然科学基金项目(52274393)湖北省重点研发计划项目(2023BAB141)

10.11868/j.issn.1001-4381.2025.000679

评论