2) Magnetic field parallelism
磁场平行度
3) parallel electronic and magnetic fields
平行电磁场
1.
In this paper, we study the spectra ofthe low-lying hydrogen atom in the parallel electronic and magnetic fields, the resonan.
本文对于平行电磁场中的氢原子低能态的谱线结构、共振能级结构以及强磁场中氢分子离子的能级进行了研究。
4) parallel electric and magnetic
平行电场和磁场
1.
Beginning with the Hamilton canonical equation,the motion equation of the charged particle moved in the parallel electric and magnetic fields was deduced.
从哈密顿正则方程出发,推导了带电粒子在平行电场和磁场中的运动方程,并讨论了在平行电场和磁场中存在两个弹性界面时粒子的闭合轨道形成的条件,最后借助于计算机编程,对带电粒子的一些闭合轨道进行了模拟。
5) traveling magnetic field
行波磁场
1.
5%Pb hollow billet under traveling magnetic field.
利用等轴球晶两相凝固模型计算了行波磁场作用下空心管坯的凝固过程。
2.
5%Pb alloy of low-melting point to verify the effect of inner traveling magnetic field on the solidification microstructure of hollow tubular billet by continuous casting.
5%Pb合金进行了空心管坯内置行波磁场的静态模拟实验研究。
3.
The parameters affecting the distribution and magnititude of induced current in molten aluminum purified by traveling magnetic field was studicd by simulative experiments.
采用模拟实验,对行波磁场净化铝熔体技术中影响感生电流分布和大小的因素进行了研究。
6) traveling wave magnetic field
行波磁场
1.
Space magnetic field's mathematical model of magnetic drive system driven by traveling wave magnetic field
行波磁场驱动的磁力传动系统空间磁场数学模型
2.
According to the analysis of dynamical equations under the traveling wave magnetic field,the velocity equation as well as the spin velocity equation and flux equation per unit time,are also analyzed.
通过分析了行波磁场作用下的磁性流体的运动方程,从而进一步推导了行波磁场作用下的磁性流体的速度方程、旋转速度方程和单位时间内的流量方程,并通过实验进行了验证。
3.
For the sake of enhancing the reliability of magnetic transmission under the condition of high rotary speed,the large clearance magnetic transmission technology with traveling wave magnetic field drive has been studied.
为提高大间隙、高转速条件下磁力传动系统的可靠性,研究了行波磁场驱动的大间隙磁力传动技术。
补充资料:威廉姆平行板塑度计
分子式:
CAS号:
性质:橡胶用塑度计的一种,与古德里奇塑度计一样,同是压塑性塑度计。测定方法是将体积2cm3的球形试样,放在两平行板之间,向试样施加5000g负荷,在70~100℃恒温槽中压缩3~10min,试样高度值乘以100即得可塑度。
CAS号:
性质:橡胶用塑度计的一种,与古德里奇塑度计一样,同是压塑性塑度计。测定方法是将体积2cm3的球形试样,放在两平行板之间,向试样施加5000g负荷,在70~100℃恒温槽中压缩3~10min,试样高度值乘以100即得可塑度。
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