Magnetic micro- and nanostructures of unalloyed steels: Domain wall interactions with cementite precipitates observed by MFM

L Batista; U. Rabe; S. Hirsekorn

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Magnetic micro- and nanostructures of unalloyed steels: Domain wall interactions with cementite precipitates observed by MFM

机译：非合金钢的磁性微观和纳米结构：MFM观察到的畴壁与渗碳体沉淀的相互作用

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The morphology and content of a cementite phase controls the macroscopic, mechanical and magnetic properties of steels. The influence of the cementite content on the bulk magnetic properties in unalloyed steels was observed in hysteresis loop and Barkhausen noise signals. Globular cementite embedded in a ferrite matrix is characterized by atomic force microscopy and magnetic force microscopy. Size, shape and orientation of the grains influence the domain configuration. When an external magnetic field is applied, the magnetization process occurs mainly in the ferrite matrix. The Bloch walls in the ferrite matrix move, and they are pinned by the cementite precipitates. This microscopic observation correlates with the macroscopic magnetic properties of the investigated material.

机译：渗碳体相的形态和含量控制着钢的宏观，机械和磁性能。在磁滞回线和巴克豪森噪声信号中观察到渗碳体含量对非合金钢的整体磁性能的影响。嵌入铁素体基质中的球状渗碳体的特征在于原子力显微镜和磁力显微镜。晶粒的尺寸，形状和方向影响畴结构。当施加外部磁场时，磁化过程主要发生在铁氧体基质中。铁素体基体中的Bloch壁移动，并被渗碳体沉淀物钉住。这种微观观察与所研究材料的宏观磁性有关。

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《NDT & E International: Independent Nondestructive Testing and Evaluation》 |2013年第null期|共11页
作者
L Batista; U. Rabe; S. Hirsekorn;
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正文语种 eng
中图分类工业通用技术与设备;
关键词
Atomic force microscopy (AFM); Magnetic force microscopy (MFM); Steel; Magnetic domains; Barkhausen noise; Microstructure; Non-destructive testing;

机译：原子力显微镜（AFM）;磁力显微镜（MFM）;钢;磁畴;巴克豪森噪声;显微组织;无损检测;

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1. Magnetic micro- and nanostructures of unalloyed steels: Domain wall interactions with cementite precipitates observed by MFM [J] . L. Batista, U. Rabe, S. Hirsekorn NDT & E international . 2013,第jula期

机译：非合金钢的磁性微观和纳米结构：MFM观察到的畴壁与渗碳体沉淀的相互作用
2. Effect of Fiber Laser Treating on Magnetic Domains in the Grain-Oriented Silicon Steel: Imaging Domains by Bitter, MFM and Kerr Microscopy [J] . V. Puchy, F. Kovac, P. Hvizdos, High temperature materials and processes . 2016,第7期

机译：光纤激光处理对晶粒取向硅钢磁畴的影响：苦味，MFM和克尔显微镜成像域
3. Effect of Fiber Laser Treating on Magnetic Domains in the Grain-Oriented Silicon Steel: Imaging Domains by Bitter, MFM and Kerr Microscopy [J] . V. Puchy, F. Ková?, P. Hvizdo?, High temperature materials and processes . 2016,第7期

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4. CHARACTERIZATION OF THE MAGNETIC MICRO- AND NANO-STRUCTURE IN UNALLOYED STEELS BY MAGNETIC FORCE MICROSCOPY [C] . L. Batista, U. Rabe, S. Hirsekorn Annual Review of Progress in Quantitative Nondestructive Evaluation . 2014

机译：通过磁力显微镜表征未结合钢中磁性微孔和纳米结构的表征
5. Spin torque and interactions in ferromagnetic semiconductor domain walls [D] . Golovatski, Elizabeth Ann 2011

机译：自旋扭矩及其在铁磁半导体畴壁中的相互作用
6. Comparison of Maraging Steel Micro- and Nanostructure Produced Conventionally and by Laser Additive Manufacturing [O] . Eric A. Jägle, Zhendong Sheng, Philipp Kürnsteiner, 2017

机译：常规生产和激光增材制造的马氏体时效钢微观和纳米结构的比较
7. Magnetic Domain Wall Manipulation Using MFM Probe [O] . T. Yamaoka, E. Saitoh, K. Machida, 2007

机译：使用MFM探头进行磁畴壁操纵

Magnetic micro- and nanostructures of unalloyed steels: Domain wall interactions with cementite precipitates observed by MFM

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