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1)  specific magnetization
比磁化强度
1.
Experiment shows that manual grinding causes thevolume content of the martensite to increase and thespecific magnetization to intensify.
实验表明,手工研磨,导致马氏体体积分数和比磁化强度显著增大。
2.
We find that the specific magnetizationσof the composites decreases exponentially with the increase of concentration of SiO2 particles, and the effective permeability μ of the composites can be agreement with the effective media theory (EMT) improved by Musal.
通过对颗粒复合体比磁化强度、磁导率、磁谱以及77K下I~U特性的测量和分析,我们发现复合体比磁化强度随SiO2含量的增多呈指数衰减;用Musal改进的有效介质理论模型能很好地拟合磁导率随锰锌铁氧体含量变化的规律;颗粒复合体显示出共振型磁谱的特征。
2)  specific saturation magnetization
比饱和磁化强度
1.
The results show that the increase of Ni content leads to the increase of amorphous forming ability,specific saturation magnetization changes complexity and reaches maximum at x=15,coercivity decreases all the while.
结果表明:随Ni含量的增加,FeNiZrNbB系合金的非晶形成能力增强,比饱和磁化强度变化相对复杂,当x=15时达到最大值,而矫顽力却一直呈下降趋势。
2.
Effects of the deposits thickness and heat treatment temperature on the coercive force and specific saturation magnetization were investigated.
通过化学镀方法获得纳米晶Co-B合金,分别研究了沉积层厚度和热处理温度对其矫顽力和比饱和磁化强度的影响。
3.
Their specific saturation magnetization σ s and specific surface area S a were measured.
通过测量它的比饱和磁化强度σs 与比表面积Sa,得出经验公式σs(Sa) =σs(∞ ) ( 1-aSa) ,运用非共线磁结构理论很好地解释了上述经验公式 ,并得到纳米晶的非共线表面层的厚度。
3)  saturation magnetization
比饱和磁化强度
1.
The result shows that the effect of cover with silicon on the coercivity (Hc), the saturation magnetization ( ), and the size of the powder particles is obviously, it has the coercivity (Hc), and the saturation magnetization decreased, but the size of the powder particle is decreased, too.
4O19)磁粉的矫顽力、比饱和磁化强度、矩磁比等磁性质及其粒度的影响,结果表明,包硅使钡铁氧体(BaCo0。
2.
The change of structure and magnetic properties of Ni 50 Bi 50 powders during mechanical alloying were studied by using X ray diffraction、DSC and saturation magnetization measurements.
X射线衍射、差示扫描量热分析(DSC)和比饱和磁化强度的测量结果表明:混合粉末的晶粒尺寸随球磨时间的增加而减小。
3.
Objective To investigate the effect of preparation conditions on the effective diameter and saturation magnetization (Ms) of dextran magnetic iron oxide nanoparticles (DMN).
目的探讨葡聚糖氧化铁磁性纳米颗粒(DMN)的制备对其有效粒径和比饱和磁化强度的影响。
4)  magnetization [英][,mægnəti'zeiʃən]  [美][,mægnətɪ'zeʃən]
磁化强度
1.
X-Y-Z model anisotropic ferrimagnetism Heisenberg system——the ground state magnetization of two- dimensional square double lattice;
X-Y-Z模型-各向异性亚铁磁性Heisenberg系统——正方复式晶格的基态磁化强度
2.
Effect of magnetization on exchange biasing in Co-Ni/FeMn bilayers;
Co-Ni/FeMn双层膜中磁化强度对交换偏置的影响
3.
Energy spectrum and magnetization of single electron quantum dot in a periodic magnetic field;
空间周期磁场中单电子量子点的能谱和磁化强度
5)  magnetization intensity
磁化强度
1.
The magnetization intensity, residual magnetization intensity and coercitive force of electroless Co-Ni-B and Co-Ni-B-La alloy films were compared.
比较了化学沉积Co-Ni-B合金镀层与化学沉积Co-Ni-B-La合金镀层的磁化强度、剩余磁化强度和矫顽力。
2.
They have discussed the influence of damping parameter and temperature on the relaxation of particle magnetization intensity.
考虑到原子作非简谐振动,求出外磁场中单畴粒子的自由能和弛豫时间的表达式,讨论了阻尼系数和温度对粒子磁化强度弛豫时间的影响。
3.
the border relation of polarization intensity and magnetization intensity have been delivered with a method which differs from general electrodynamics literature and bases on microcosmic physical medium model, and this method is in favor of understanding and boundary value relation from point of view of microcosm.
用和一般电动力学教材不同的方法即在介质经典微观物理模型的基础上推导出了极化强度Pω和磁化强度Mω的边值关系,使得更有利于从微观的角度理解这两个边值关系,并得出了极化电荷分布深度和磁化电流的分布深度都在分子线度的数量级这一结论。
6)  magnetic intensity
磁化强度
1.
Lithospheric density and geomagnetic intensity in northeastern margin of the Tibetan plateau and tectonic implications;
青藏高原东北缘岩石圈密度与磁化强度及动力学含义
2.
The influence of the radius of magnetic fine particulate and the surfactant upon the magnetic performance of the fluid was investigated respectively, the preparation condition was optimized using the orthogonal experiment, and the magnetic intensity of the fluid was tested.
考察了磁微粒粒径、表面活性剂等因素对其磁性能的影响 ,用正交实验优化了制备工艺条件 ,对磁性液体的磁化强度进行了测试。
补充资料:磁化强度
磁化强度
magnetization
    描述磁介质磁化状态的物理量。是矢量,常用符号M表示。定义为单位体积内分子磁矩m的矢量和,即
   !!!C0990_1式中!!!C0990_2是对体积元ΔV内全部分子求和。
   在外磁场作用下,磁介质磁化后出现的磁化电流要产生附加磁场,它与外磁场之和为总磁场B。对于线性各 向同性磁介质,MBH成正比,顺磁质的MBH同方向,抗磁质的MBH反方向。对于各向异性磁介质,MBH成正比,但比例系数是一个二阶张量。对于铁磁质,MBH之间有复杂的非线性关系,构成磁滞回线。
   在国际单位制(SI)中,磁化强度M的单位是安培/米(A/m)。
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