1) magnetic stick
磁搅拌子
2) electromagnetic stirring
电磁搅拌
1.
Flow and Solidification of Copper Thin-slab in Horizontal Continuous Casting with Electromagnetic Stirring;
铜板带水平连铸电磁搅拌中熔体的流动和凝固
2.
Effects of Sr and Electromagnetic Stirring on Microstructure of AZ91D Magnesium Alloy;
Sr与电磁搅拌对AZ91D合金显微组织的影响
3.
Numerical Simulation of Magnetic Field and Flow Field in Aluminum Melt with Electromagnetic Stirring;
铝熔炉电磁搅拌磁场与流场的数值模拟
3) EMS
电磁搅拌
1.
Present Situation of Research and Application of EMS of Semi-solid Forming;
电磁搅拌制备半固态浆料的研究及应用现状
2.
Effect of mould EMS on quality of high carbon steel billet;
电磁搅拌对高碳钢小方坯质量的影响
3.
Development of EMS Technology and its Application in WISCO;
电磁搅拌技术的发展及其在武钢的应用
4) M-EMS
电磁搅拌
1.
Practice on M-EMS in a bloom caster at Xuanhua Steel;
宣钢连铸机结晶器电磁搅拌工艺实践
2.
Application of M-EMS on Billet Caster for Producing Medium and Low Carbon Steel
采用结晶器电磁搅拌技术生产小方坯中低碳钢
3.
The effect of current(150~500A) of mold electromagnetic stirring(M-EMS) technology on metallurgy quality of 280 mm×380 mm,280 mm×325 mm concasting bloom of heavy rail steel U75V etc grade has been tested and studied.
试验研究了电磁搅拌的电流(150~500 A)对重轨钢U75V等钢种(mm)280×380、280×325连铸坯冶金质量的影响。
5) magnetic stirring
电磁搅拌
1.
Numerical simulation of mold electromagnetic stirring for square billet continuous casting;
小方坯连铸结晶器电磁搅拌的数值模拟
2.
The higher the rotating speed is,the stronger the effect of electromagnetic stirring on the liquid is,.
磁场的旋转速率越高,对液态的电磁搅拌作用越强,焊缝金属的晶粒越细小、Al-12Si合金共晶组织越均匀。
3.
The present paper reviews the development of the magnetic stirring technology and its various patterns and their roles, and analyzes the effects of this technology on improvement of the slab quality and foresees the prospect of development of this technology.
综述了电磁搅拌技术的发展、种类及作用 ,举例说明了电磁搅拌技术对改善铸坯质量的影响 ,并展望了电磁搅拌技术的发展前景。
补充资料:磁铅石型旋磁铁氧体
分子式:
CAS号:
性质:晶体结构和天然磁铅石Pb(Fe7.5Mn3.5A10.5Ti0.5)19类似的铁氧体称为磁铅石型铁氧体。其结构对称性较尖晶石型的为低。其中晶体具有各向异性大、矫顽力高的六角晶系铁氧体,称为磁铅石型微波铁氧体。主要有M型(BaFe12O19)和W型(BaM2+2Fel6O27),M为锰、钴、镍、锌、镁等二价金属离子。通过离子代换部分Ba2+,可获得BaO-MO-Fe2O3三元系的磁铅石型复合铁氧体,并可使各向异性场在一定范围内变化。制造方法可用一般磁性瓷生产工艺,热压烧结或气氛烧结制成。用于微波频段,可制成隔离器、相移器、调制器、环行器等线性器件和倍频器、限幅器、振荡器、混频器、参量放大器等非线性器件。是发展现代微波技术的重要材料。
CAS号:
性质:晶体结构和天然磁铅石Pb(Fe7.5Mn3.5A10.5Ti0.5)19类似的铁氧体称为磁铅石型铁氧体。其结构对称性较尖晶石型的为低。其中晶体具有各向异性大、矫顽力高的六角晶系铁氧体,称为磁铅石型微波铁氧体。主要有M型(BaFe12O19)和W型(BaM2+2Fel6O27),M为锰、钴、镍、锌、镁等二价金属离子。通过离子代换部分Ba2+,可获得BaO-MO-Fe2O3三元系的磁铅石型复合铁氧体,并可使各向异性场在一定范围内变化。制造方法可用一般磁性瓷生产工艺,热压烧结或气氛烧结制成。用于微波频段,可制成隔离器、相移器、调制器、环行器等线性器件和倍频器、限幅器、振荡器、混频器、参量放大器等非线性器件。是发展现代微波技术的重要材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条