Core Loss in Toroidal Cores Based on Fe-Based Amorphous Metglas 2605HB1 Alloy

Azuma D.; Hasegawa R.

首页> 外文期刊>Magnetics, IEEE Transactions on >Core Loss in Toroidal Cores Based on Fe-Based Amorphous Metglas 2605HB1 Alloy

【24h】

Core Loss in Toroidal Cores Based on Fe-Based Amorphous Metglas 2605HB1 Alloy

机译：基于铁基非晶态Metglas 2605HB1合金的环形铁芯的铁损

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Amorphous ribbon exhibits low power loss. However, core loss of amorphous ribbon based toroidal cores is about twice as large as that of the ribbon even after field annealing under an optimum condition. In the present work, effects of residual strain and inter-laminar eddy-current loss on loss increase were examined for toroidal cores based on recently developed Metglas 2605 HB1 alloy which has a high saturation induction ${rm B}_{rm s}$ of 1.64 T. The results show that: 1) with increase in residual strain, core loss and hysteresis loss are increased and no significant change in excess eddy-current loss was observed, and 2) there is no significant difference for frequency dependence of eddy-current loss by varying packing factor from 83% to 87%. This implies that there is no loss increase due to inter-laminar eddy current.

机译：非晶带具有低功率损耗。然而，即使在最佳条件下进行场退火后，基于非晶带的环形磁芯的磁芯损耗也大约是带的磁芯损耗的两倍。在目前的工作中，基于最近开发的具有高饱和感应强度的Metglas 2605 HB1合金，研究了环形铁芯的残余应变和层间涡流损耗对损耗增加的影响。 =“ TeX”> $ {rm B} _ {rm s} $ 为1.64T。结果表明：1）随着残余应变的增加，铁芯损耗和磁滞损耗增加，并且没有观察到过剩涡流损耗的显着变化，并且2）通过将装填系数从83％更改为87％，涡流损耗的频率依赖性没有显着差异。这意味着不会由于层间涡流而增加损耗。

著录项

来源
《Magnetics, IEEE Transactions on》 |2011年第10期|p.3460-3462|共3页
作者
Azuma D.; Hasegawa R.;
展开▼
作者单位

Metglas, Inc.,, Conway, , SC , USA;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
Amorphous materials; eddy currents; magnetic cores;

机译：非晶态材料;涡流;磁芯;

相似文献

外文文献
中文文献
专利

1. Domain structure and magnetization loss in a toroidal core based on an Fe-based amorphous alloy [J] . Daichi Azuma, Ryusuke Hasegawa, Shin Saito, Journal of Applied Physics . 2012,第7pta2期

机译：铁基非晶合金在环形磁芯中的畴结构和磁化损耗
2. Fe-based amorphous powder cores with low core loss and high permeability fabricated using the core-shell structured magnetic flaky powders [J] . Haibo Sun, Ce Wang, Jinghui Wang, Journal of magnetism and magnetic materials . 2020,第May期

机译：Fe基无定形粉末芯，使用芯壳结构磁性片状粉末制造低芯损耗和高渗透性
3. Low core loss combined with high permeability for Fe-based amorphous powder cores produced by gas atomization powders [J] . Chang Chuntao, Dong Yaqiang, Liu Min, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：低核损耗与通过气体雾化粉末产生的Fe基无定形粉末芯的高渗透性
4. (07A302) Domain structure and magnetization loss in a toroidal core based on an Fe-based amorphous alloy [C] . Daichi Azuma, Ryusuke Hasegawa, Shin Saito Annual Conference on Magnetism and Magnetic Materials . 2012

机译：（07A302）基于Fe基非晶合金的环形芯中的畴结构和磁化损失
5. High frequency, high temperature core loss and B-H loop characterization model for soft magnetic material Metglas 2605S-3A [D] . Wieserman, William Robert 1995

机译：软磁材料Metglas 2605S-3A的高频，高温铁损和B-H回路特性模型
6. Wide Linearity Range and Highly Sensitive MEMS-Based Micro-Fluxgate Sensor with Double-Layer Magnetic Core Made of Fe–Co–B Amorphous Alloy [O] . Lei Guo, Cai Wang, Saotao Zhi, 2017

机译：Fe-Co-B非晶合金制成的具有双层磁芯的宽线性范围和基于MEMS的高灵敏度微磁通门传感器
7. Magnetic properties of Fe-based toroidal cores prepared by continuous Joule heating under tensile stress. [O] . Yanai Takeshi, Shimada A., Takagi K., 2007

机译：拉伸应力下连续焦耳加热制备铁基环形磁芯的磁性能。
8. Comparison of High Temperature, High Frequency Core Loss and Dynamic B-H Loops ofTwo 50 Ni-Fe Crystalline Alloys and an Iron-Based Amorphous Alloy [R] . Wieserman, W. R., Schwarze, G. E., Niedra, J. M. 1991

机译：两种50 Ni-Fe结晶合金和铁基非晶合金的高温，高频铁损和动态B-H环的比较

Core Loss in Toroidal Cores Based on Fe-Based Amorphous Metglas 2605HB1 Alloy

摘要

著录项

相似文献

相关主题

期刊订阅