1) negater spring
反旋弹簧
2) self-rotating spring
自旋弹簧
1.
Geometric parameters of the self-rotating spring may greatly affect the heat transfer and automatic fouling-remove in the heat transfer tubes.
换热管内插自旋弹簧的几何参数对其强化传热和自动除垢效果有重要的影响,通过对多组试验结果的比较分析,得出了无量纲参数D1/S、D1/D0对换热管内自旋弹簧的转动特性和流体阻力特性的影响规律,并在大量试验数据的基础上归纳出一个换热管内自旋弹簧工作性能的综合评判准则——L z准数。
3) coil spring
螺旋弹簧
1.
Stiffness calculation of coil spring used in locomotive and rolling stock;
机车车辆中螺旋弹簧刚度计算
2.
Non-conservative fussy reliability design of automobile coil spring
汽车螺旋弹簧的非保守模糊可靠度设计
3.
This article take the coil spring as the object of study,proposed structural style,the material,the level of stress and the fabrication technology of coil spring,which should be meet to prolong the coil spring fatigue life and improve smoothnees of the vehicle.
螺旋弹簧是高机动越野汽车悬架系统中的关键零件。
4) spiral spring
螺旋弹簧
1.
Discussion once again on the improvement method of cylindrical spiral spring design;
再谈圆柱螺旋弹簧设计方法的改进
2.
The optimal design system on CAD of spiral spring;
螺旋弹簧的计算机辅助优化设计系统
3.
Calculating rolling stock spiral spring's stiffness by method of amending spring working height
采用修正工作高度的方法计算铁道机车车辆螺旋弹簧刚度
5) Helical spring
螺旋弹簧
1.
Nonlinear theory of conical helical spring;
圆锥螺旋弹簧的非线性理论研究
2.
The reliability multi-target optimization design of helical spring;
螺旋弹簧可靠性多目标优化设计
3.
The paper is first contributed to discussing the method calculating the internal natural frequencies of helical springs.
本文首先讨论丁单螺旋弹簧局部振动的固有频率的计算方法,在此基础上进一步建立了串联、并联弹簧局部振动的分析模型,并探讨了弹簧局部振动频率的控制方法。
6) helix spring
螺旋弹簧
1.
Based on the center of gravity of cab,this paper offers the improvement ways for helix spring and shock absorber of the heavy truck cab suspension.
文章在测出某重卡驾驶室质心的基础上,对重卡驾驶室悬置系统中前、后螺旋弹簧及减振器的参数进行改进。
2.
Faced with the poor reliability of hydro-pneumatic suspension installed on off-road vehicles,a composite suspension is designed,where the elastic force is supplied by both the helix spring and hydro-pneumatic suspensions.
针对装有油气悬架的车辆在实际应用中所面临的可靠性问题,提出了一种以油气悬架和螺旋弹簧共同作用提供弹性力的复合悬架。
3.
According to[1], the longitudinal shock calculation of the helix spring in the shockproof device is discussed.
讨论了[1]中提出的汽车防撞防振器中螺旋弹簧的纵向冲击计算,同时也简单地介绍了板簧及组合圆柱形压缩螺旋弹簧的计算。
补充资料:自旋-自旋弛豫
自旋-自旋弛豫
磁共振成像术语。又称T2弛豫或横向弛豫(transverse relaxation),指垂直于外磁场B0方向的磁化矢量的指数性衰减过程。磁共振成像时,对置于外磁场B0中的自旋系统施加90°射频脉冲,则自旋系统被激励,其净磁化矢量指向与外磁场B0垂直;射频脉冲终止后,被激励的质子与邻近的原子核之间发生相互作用,逐渐失去相位,净磁化矢量指向恢复与外磁场平行,该过程称自旋-自旋弛豫。自旋-自旋弛豫过程无能量交换。
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