The relation of the transient transmittance and the twist Angle is obtained by calculating the instantaneous distribution of the director in this mode.
通过计算液晶盒中的瞬时指向矢分布,得到光透过率随时间变化与扭曲角之间的关系。
This paper deals with the twisting process in electrostatic spinning and the radial distribution of the twist of electrostatic spun yarn.
本文研究了静电纺纱的加捻过程与静电纱的捻度结构,也详细分析了静电纺纱合适的股线加捻工艺。
Through analyzing the motion and dynamics of free yarn segment (F. Y. s) in rotor spinning, the effect of both the F. Y. s's shape and the spinning parameters on twist distribution of the f.
通过对自由纱段的运动及受力分析,对自由纱段形态以及纺纱工艺参数对自由纱段捻度分布的影响进行了研究。
By static and dynamic experiments, the twist distribution and spinning mechanism are studied of Sirofil yarn, and the agreements are also discussed between experiment and theory.
本文通过静态及动态模拟实验,研究了赛络菲尔纺各组分的捻度分布规律及成纱机理,并从理论上进行了探讨。
The relation of the responding time and the twist angle is obtained by calculating the instantaneous distribution of the director in this mode.
通过计算液晶盒中的瞬时指向矢分布 ,得到响应时间参数与扭曲角之间的关系 。
In this article, image processing is used to measure twist Angle of each part, which is translated into the twist of slub and base yarn, and then the distribution of slub yarn twist is regulated.
文章介绍了采用图像法测量各部分捻角,转化为竹节及基纱的捻度,然后再对其捻度分布规律进行分析研究。
The motion and dynamics of the yain on the navel are analyzed to study the twist distribution inside the rotor, and the distribution curves are obtained by numerical methods.
通过对纱条在假捻盘上的运动和受力分析,对转杯纺杯内的捻度分布进行研究,并得到了杯内捻度分布的一般规律。
The change of spun tension, the forming of resistance torque and the change of twist distribution are discussed when adding the resistance torque element in the rotor spun twist zone.
这里研究在转杯纺加捻区中加装阻扭件后,讨论分析加捻区中纺纱张力的变化,进而构成阻扭件产生的阻扭矩以及形成阻扭件前后区域捻度分布的变化并建立捻度分布模型。
The agreement is good. Finally, location offset of twist center of pile cap with asymmetrically horizontal rigidity distribution is analyzed, and some beneficial insights are provided.
最后,对刚度不对称时群桩转心位置的偏移量进行了计算分析,获得了一些有益的结论。
The first and the second distribution pipe portions can mutually rotate, which prevents twist of the distribution pipe when the front vehicle body leans.
第一、第二配水管部分相互能够转动,在前车体倾斜时防止配管的扭曲。
The first and the second distribution pipe portions can mutually rotate, which prevents twist of the distribution pipe when the front vehicle body leans.
第一、第二配水管部分相互能够转动,在前车体倾斜时防止配管的扭曲。
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