1) Magnetorheological
磁流变
1.
Study on Time Lag of Magnetorheological Semi-active Suspensions Based on Fuzzy Internal Model Control;
基于模糊内模控制磁流变半主动悬架的时滞研究
2.
Application of virtual instrument technology in magnetorheological oscillating experiment platform;
虚拟仪器技术在磁流变振动实验台中的应用
3.
Design of A Cylindrical Magnetorheological Brake;
圆筒式磁流变制动器的设计
2) MRF
磁流变
1.
Influence of primary longitudinal position clearance on lateral dynamics of vehicle with MRF coupled wheelsets;
一系纵向定位间隙对磁流变耦合轮对车辆横向动力学性能的影响
2.
Influence of Anti-hunting Damper on Critical Velocity and High-speed Curve Negotiating Performance of the Vehicle with MRF Coupled Wheelsets;
抗蛇行减振器对磁流变耦合轮对车辆的临界速度与高速曲线通过性能的影响
3.
Research on Coupler with MRF Wheelsets and Dynamics Performance of the Vehicle;
磁流变轮对耦合器及其车辆动力学性能研究
3) Magneto-rheological
磁流变
1.
Study on Inner Bypass Magneto-rheological Damper with Magnetic Bias;
磁偏置内旁通式磁流变阻尼器研究
4) magnetorheological fluid
磁流变液
1.
Flow analysis of magnetorheological fluid in transmission device in steady state;
传动装置中磁流变液的稳态流动分析
2.
Preparation and properties of water-based magnetorheological fluid;
水基磁流变液的制备及其性能研究
3.
Fluid dynamics theory for magnetorheological fluids;
磁流变液的流体动力学理论
5) MR fluid
磁流变液
1.
Design and application of MR fluid damper controlled stay-cable system;
斜拉索磁流变液阻尼器半主动振动控制系统的设计与应用
2.
Viscoplastic flow of the MR fluid between two cylinders;
磁流变液在圆筒间的粘塑性流动
3.
A Basic Research on MR Fluid Starter;
磁流变液启动装置的基础研究
6) magnetorheological fluids
磁流变液
1.
Preparation capability excellent magnetorheological fluids with uniformity design method;
用均匀设计法制备性能优良的磁流变液
2.
Study on the chain-formation mechanism of magnetorheological fluids based on dipole theory;
基于偶极子理论的磁流变液链化机理模拟研究
3.
Analysis of the stability of microstructures in magnetorheological fluids;
静磁场下磁流变液微结构形态稳定性分析
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