magnetic performance
- magnetic performance的基本解释
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磁性
- 更多网络例句与magnetic performance相关的网络例句 [注:此内容来源于网络,仅供参考]
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This invention relates to a new type nanometer crystal Fe-Zr-Nb-Si-Al-Cu series soft magnetic alloy super thin band and its process technology in which, the mother alloy is smelted by vacuum IF induction oven, an amorphous band is processed by a single quick cooling device to be processed by magnetic field heating at last to get the needed product with good soft magnet performance and iron core made by the super thin band improves its magnetic performance greatly.
本发明为一种新型纳米晶Fe-Zr-Nb-Si-Al-Cu系软磁合金超薄带及其制备工艺。由真空中频感应炉冶炼母合金,用单辊冷急装置制得非晶带,最后对非晶带进行磁场热处理,从而制得所需产品。本发明的合金超薄带具有优良的软磁性能,生产成本也较低。由本发明的超薄带制得的铁芯,其磁性能有很大改善,在国防和民用工业方面有广泛用途。
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In the dehydrogenation process of HD process, the temperature set at 580℃ and pressure set at 100Pa is a perfect parameter, it can make the magnet to have high magnetic performance. In the HDDR process experiment, the paper contrast four HDDR process such as C-HDDR V-HDDR V-HD-S-DR and d-HDDR by the anisotropy and magnetic performance of ternary NdFeB magnetic material. The results show that adjusting the parameter of the d-HDDR process can make the anisotropy and magnetic performance of ternary NdFeB magnetic powders to catch up with the hexahydric NdFeBCoZrGa magnetic powders. At the end the paper discusses the betterment of the equipment which produces ternary NdFeB magnetic with the d-HDDR process.
和580℃的脱氢温度相搭配的脱氢气压选择在100Pa左右是理想的工艺参数,这样的搭配使得最终烧结磁体综合磁性能优异;在HDDR制粉工艺实验中,本文对比了C-HDDR、V-HDDR、V-HD-S-DR和d-HDDR四种HDDR工艺对于三元NdFeB合金各向异性和磁性能的影响,得出结论:通过发展d-HDDR工艺,调整工艺参数和控制水平,可以使三元NdFeB合金磁粉的性能达到或接近六元NdFeBCoZrGa合金磁粉的水平,在文章末尾,还对配合使用d-HDDR工艺设备的改造进行了分析。
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Base on the magnetic performance of gas, the moment of rotation of a dumbbell is derived when it is in a nonuniform magnetic field. A design of the measuring cell is proposed, a rotary resistance for the dumbbell ball is implemented by a silver-coated erosion approach, and the techinque requirements are analyzed for the nonuniform gradient magnetic field.
从气体磁性推导出了哑铃球在非均匀梯度磁场中受到的转动力矩公式,给出测量池系统的设计方案,采用镀银刻蚀方案实现哑铃球系统的转动阻尼,分析了非均匀梯度磁场系统的技术要求。