1.
variable temperature micromagnetic susceptometer
可变温度微磁磁化率计
2.
portable magnetic susceptibility meter
便携式磁化率测定器
3.
Magnetostratigraphy and Magnetic Susceptibility of Tertiary in the Liupanshan Mountain and Its Significance;
六盘山第三系磁性地层、磁化率及其意义
4.
The anisotropy is described by a magnetic susceptibility tensor, andapplied to analyse the magnetic fabric of rocks.
磁各向异性采用磁化率张量来描述,并用于研究岩石的磁组构。
5.
Volanic rocks have high susceptibilities under normal conditions.
火山岩在正常情况下有强的磁化率。
6.
A Comparative Study of the Magnetization Ratio of CuCl-POA and CuBr-POA;
CuBr-poa和CuCl-poa磁化率的比较研究
7.
Distribution Characteristics of Magnetic Susceptibility of Surficial Sediments in the Western Taiwan Strait
台湾海峡西部表层沉积物磁化率特征
8.
EFFECTS OF MECHANICAL PULVERIZATION ON THE LOW-TEMPERATURE OXIDIZATION AND MAGNETIC SUSCEPTIBILITY OF MAGNETITE
机械研磨作用对磁铁矿低温氧化及磁化率的影响
9.
APPLICATION OF APPARENT SUSCEPTIBILITY TO STUDY GEOLOGICAL STRUCTURES IN ZUNHUA AREA, EASTERN HEBEI PROVINCE
应用视磁化率研究冀东遵化地区的地质构造
10.
The magnetic anisotropy due to the construsction and texture of rockscan be represented by the susceptibility tensor.
岩矿石结构构造成因的磁各向异性,可用磁化率张量描述。
11.
Magnetic Susceptibility and Spin-glass Transition in Diluted Magnetic Semiconductor Hg_(0.89)Mn_(0.11)Te
稀磁半导体Hg_(0.89)Mn_(0.11)Te中的磁化率和自旋-玻璃转变
12.
There is an obvious positive correlation betweenmagnetic susceptibility and iron content in rutile.
金红石的磁化率与其铁的含量明显相关。
13.
THE MAGNETIC SUSCEPTIBILITY CHARACTERISTICS AND CLASSIFICATION OF PADDY SOILS IN JILIN PROVINCE
吉林省水稻土的磁化率特征及其分类问题
14.
The Application of Near-infrared Spectrum and Magnetic Susceptibility in Gold Deposit Forecast;
近红外光谱和磁化率在金矿预测中的应用
15.
Analysis and Optimization of Large Transverse Flux Permanent Magnet Machine with Flux-concentrated Design;
大功率聚磁式横磁通永磁电机设计及其优化技术研究
16.
300MHz Digital NMR Frequency Source;
300MHz数字化核磁共振频率源
17.
The Electromagnetic Parameters Database of Absorbers and Optimization for the Reflectivity;
吸收剂电磁参数数据库与反射率优化
18.
The results also showed that the specific saturation magnetization and the magnetic loss power of the product increased with the increasing of ferrous content.
产物比饱和磁化强度和磁损耗功率随铁含量的增加而增大。