磁感应强度

  • 网络magnetic induction;magnetic flux density;flux density
磁感应强度磁感应强度
  1. 圆电流全空间磁感应强度B的分布

    Distribution of the whole-space magnetic induction intensity B in a circular current

  2. 通过ANSYS有限元数值模拟发现,熔体中的脉冲磁感应强度、电磁力等物理量的分布是不均匀的。

    Through the ANSYS simulation results , it was found that the distribution of the magnetic induction strength , electromagnetic force in the melt were nonuniform .

  3. 圆锥曲线电流在焦点处的磁感应强度B

    The magnetic induction at the focus of conic-electric-current

  4. 高饱和磁感应强度S型NiZn铁氧体的工艺优化研究

    Synthesizing Parameters of Ni-Zn Ferrite with High Saturated Magnetic Flux

  5. 探讨了传导电流的分布与磁感应强度B、磁场强度H和磁化电流的分布的关系。

    The relation between conduction current distribution and distribution of B 、 H and magnetizing current are discussed as well .

  6. 设计了一个测量头部磁感应强度的模拟实验,实验数据与FDTD理论分析结果一致。

    The experiment data is unanimous to the FDTD theory analysis of brain .

  7. 应用ANSYS有限元分析软件,编制了电渣重熔过程的电磁场、流场计算程序,探索性地研究了不同工艺参数条件下的磁感应强度、电磁力和电流密度的分布情况。

    With finite element analysis software-ANSYS , it programs the composition of electromagnetic and flow field in ESR process .

  8. 在计算一平行板电容器的两板间磁感应强度B时,有常见的两种解法,其中一种常见解法是错误的。

    In calculating the magnetic flux density B between two blocks of parallel block capacitors , there are two common solutions , one of which is not correct .

  9. 熔融织构YBCO超导永久磁体中俘获磁感应强度随时间的变化

    Evolution of captured magnetic field in superconducting MTG YBCO permanent magnet

  10. 当磁感应强度B≥0.2T时,控制效果明显;

    That control effectiveness is obvious when magnetic flux density is more than 0 . 2T ;

  11. WD硅钢织构参数与其磁感应强度的关系

    Relationship Between Texture Parameter and Magnetic Induction of WD Silicon Steels

  12. 通过ANSYS软件首先对磁路进行分析,得到不同励磁电流下阻尼间隙中的磁通密度分布图,经过统计分析获得阻尼间隙中的磁感应强度值随励磁电流的变化曲线趋势图。

    Firstly through the ANSYS software to analysis the magnetic circuit and obtained the curve of the flux density in the gap with the current .

  13. 它的瞬间磁场B(t)是磁感应强度峰值Bm,α和θ的函数;

    The instantaneous field B ( t ) was the function of the peak value of magnetic induction density B m , α and θ .

  14. 在实验基础上给出了矿用圆环链缺陷漏磁场磁感应强度B与缺陷特征尺寸的关系,同时给出了矿用圆环链缺陷漏磁场强度H的计算方法。

    The relation between the magnetic induction intensity B and the characteristic size of flaw is presented . At the same time . computing method of magnetic field intensity H of flaw is given .

  15. 研究了溶液浓度、pH值、交换吸附时间、磁感应强度和磁场处理时间对高岭石吸附重金属离子Cu2+的影响作用。

    The influence of solution concentration , pH value , absorption time , and intensity of magnetic induction on the Cu ~ ( 2 + ) sorption capability of kaolinite were studied .

  16. 三种磁感应强度下,在[111]晶向单晶硅抛光片上,Cr镀层都以(110)晶面择优生长。

    On silicon polished wafer whose orientation index is [ 111 ] , the Cr coating all by ( 110 ) crystal face preferred grow at three magnetic induction intensity .

  17. 对于普通的γ-Fe2O3,当温度从20℃上外到80℃时,剩余磁感应强度Br减少了5%;

    To ordinary γ - Fe_2O_3 magnetic powder , when the temperature changes from 20 ℃ to 80 ℃, the remanent magnetization Br decreases 5 percent .

  18. 感应线圈与结晶器间的距离增大,磁感应强度明显减小,5~10mm的间距对电磁连铸过程较为有利。

    The distance of 5 ~ 10 mm was favorable to electromagnetic continuous process .

  19. 在磁感应强度达到19.0T,脉冲数为9时Vc损失率仅为28%,与热力杀菌相比,对Vc的损失要小的多。(4)强脉冲磁场对酶和微生物的作用机制及其机理探讨。

    Compared to heating sterilization , the loss of Vc is much less . ( 4 ) The mechanism of effect of high intensive pulsed magnetic field to microbe and enzyme .

  20. 设计制作了中心场磁感应强度为3T的200A二元电流引线;

    A200A binary current lead with a central magnetic induction strength of3T is designed .

  21. 以Hg的5461nm谱线为例,讨论塞曼效应实验中磁感应强度B与F-P标准具自由光谱范围的关系。

    Using the Hg 546.1 nm spectrum , the relation between the magnetic induction B and the free ( spectral ) range of F-P etalon is studied in experiment of Zeeman effect .

  22. 在保证工作气隙一定磁感应强度的情况下,通过Ansys软件进行优化,设计出了一种工作气隙中心平均磁感应强度≥1.75T的高场强永磁磁路。

    And after optimization by Ansys software , a permanent magnetic circuit , in which the average magnetic induction strength at the center of the working gap is up to 1.75 T , is got .

  23. 为此根据位势理论和Maxwell方程,建立电磁制动器在制动盘某点处产生的磁感应强度预测模型。

    According to potential theory and Maxwell equations , the prediction model of magnetic induction on some point of the brake disc generated by the electromagnetic brake was built .

  24. 通过实验研究,确定了电磁超声传感器最佳励磁电流,利用ANSYS有限元软件,对用于钢管缺陷检测的电磁超声传感器的磁感应强度进行了计算,得到磁感应强度的分布规律。

    The best impelled current of the electromagnetic iron was determined by experiments , and magnetic induction intensity in electromagnetic acoustic transducer ( EMAT ) testing steel pipe 's defaults was calculated by ANSYS finite element software .

  25. 在928K等温条件下,饱和磁感应强度Ms和矫顽力Hc都随保温时间的延长而增大。

    The saturation magnetization Ms and the coercivity Hc y increase with the annealing time when isothermal annealing at 928K is applied to the alloy .

  26. 通过对轴向磁感应强度变化梯度和检测线圈感应电压的幅值和相位差,给出提高MIT检测灵敏度的激励线圈相关参数。

    According to the axial magnetic induction strength variety gradient and induced voltage amplitude and phase difference , we acquire the related parameters of the coil with improved the detection sensitivity .

  27. 以Fe、Co为主体的磁性纳米颗粒膜具备高电阻率、高饱和磁感应强度及宽频带范围的高磁导率特性,是一种十分理想的微磁器件材料。

    The magnetic nano-granular films with iron or cobalt elements have a high electrical resistivity , a high intensity of saturated magnetic induction and a wide frequency of magnetic conductivity , thus it is a realistic material to make micro-magnetic instruments .

  28. 提出了针对测试区域中任一位置的磁感应强度X、Z分量值,利用整个测试区域的磁感应强度X、Z方向分量数据,得到横向偏差的确定方法。

    Finally , a lateral positioning algorithm was put forward , which used the X , Z direction distribution data of the whole testing range to gain the lateral deflection value for giving either X , Z components in testing range .

  29. 在家兔腹背贴磁片,每一磁片的磁感应强度0.2T。穴位贴磁药对肝炎后肝硬化患者肝功能的保护

    Protective actions of acupoint magnetic medicated plaster therapy on hepatic function in the patient of cirrhosis after hepatitis

  30. 本文对Biot-Safar定律的应用进行了详细的讲述,并推证和推出了几种典型电流产生的磁感应强度B的计算公式,重点是给出了解题的简便方法。

    The present paper expounds the Biot-Safar Law and deduces formulas for magnetic induction intensity B induced by several typical electric currents , thus giving out convenient methods of solution .