magnetic filed meaning in Chinese
磁场
Examples
- Analysis of two numerical models of ac loss on smes in parallel magnetic filed
迈斯纳态下超导球的电磁性质分析 - This thesis focuses on tabu search algorithms used for the function optimizations . the improvement ideas are proposed and the effectiveness is shown with the testing of both theoretical mathematical functions and a practical magnetic filed optimization problem
本论文着眼于禁忌搜索算法在函数优化中的应用,提出了有效的改进方案,并通过数学函数和实际的电磁场优化问题测试其改进效果。 - The polarization properties of zf1 magneto - optic glass fiber are studied by experiment and the sources of errors are analyzed . we draw a conclusion that magneto - optic glass fiber is applicable to be made into all - fiber current transducer to measure electric current and magnetic filed
实验研究了zf1磁光玻璃光纤的磁致旋光效应,分析误差的来源,得出磁光玻璃光纤应用在全光纤电流传感器中的可行性的结论。 - The main achievements are as follows : the theory models of defect mfl field are set up ; based on the magnetic dipole model and finite element model , the distribution of defect mfl field is simulated in the dissertation ; the component of flux density ( magnetic filed ) parallel to the surface of pipe is detected by a circumferential array of hall probes ; the factors including defect geometry parameters , defect surface angle and shape , pipe material , field intensity , vehicle velocity , background magnetization , operating pressure and remanent magnetization and so on influence the mfl signal characteristics
采用霍尔元件作为缺陷漏磁检测传感器,获得管道轴截面漏磁场切向分量的漏磁信号;研究了缺陷外形尺寸、缺陷倾角和形状、管道材质和磁化强度、检测仪移动速度、管道背底磁场、管内压力和剩磁对漏磁信号的影响。提出了各通道增益放大、各路漏磁信号偏离调整、波形微分、数字滤波和平滑等漏磁信号预处理方法;分析了等空间采样的漏磁信号转换为等时间采样信号的必要性,研究了漏磁信号的小波去噪方法。 - It indicated that not only can spirulina cells grow photoautotrophically and photomixtrotrophically , but also can grow heterotrophically under some specific conditions . light intensity , light quality , temperature , species and concentration of metals , rare earth elements and vitamins , salinity , cell concentration , dissolved oxygen level and magnetic filed etc . , all play important roles in photosynthetic performance and cell productivity of spirutina
认为螺旋藻细胞不但能进行光合自养和混合营养生长,而且在某些特定的环境条件下,还能进行异养生长;光照强度、光质、温度、金属元素、稀土元素、盐度、藻体细胞浓度、溶氧水平、维生素、激素和磁场等环境因素对螺旋藻细胞的光合性能和细胞产率都有显著影响。