1) frequency theory of nerve impulse
冲动频率论
2) ripple frequency
脉冲频率,脉动频率,波纹频率
3) pulse frequency
脉冲频率
1.
Effect of the pulse frequency on bonding strength of micro-arc oxidation coatings of titanium alloy/epoxy resin;
脉冲频率对钛合金微弧氧化膜/环氧树脂结合强度的影响
2.
Effect of pulse frequency on pulsed electric current sintering process of iron-based powders;
脉冲频率对铁基粉末脉冲电流烧结过程的影响
3.
Effects of unipolar pulse frequency on microarc oxidation coatings of pure titanium;
单极性脉冲频率对微弧氧化膜特性的影响
4) Impact frequency
冲击频率
1.
The results indicate that although the impact frequency of DTH hammer decreased somehow, the impact power increased.
结果冲击频率虽然有所下降 ,但其冲击功却有升高的趋势。
2.
the results showed that the life of initial peeling off depending on impact energy and impact frequency,and it is also related to surface roughness.
结果表明,端面起始剥落寿命主要取决于冲击能量和冲击频率,也和端面粗糙度有关。
3.
This paper discusses the wonting principle ot the vaive-type counter-actmg nyaraunc impact too1s , and presents methods for calculating impact force and impact frequency.
本文论述了阀式反作用液动冲击器的工作原理,提出了计算冲击力和冲击频率的方法。
5) frequency collision
频率冲突
1.
In a high density environment,Radio Frequency Identification(RFID) readers often experience serious frequency collisions when communicating with tags in the same channel,resulting in misreading.
在高密度RFID读写器环境中,读写器间存在着同一信道内的频率冲突问题,这种频率冲突导致了标签不能被读写器正确地识别。
6) impacting frequency
冲击频率
1.
Impacting energy and impacting frequency of hydro-efflux hammer based on LabVIEW;
基于LabVIEW测射流冲击器冲击功及冲击频率
2.
Relationship between impacting frequency of steel ball percussion tools and wind pressure/wind quantity was set up by mathematic statistic method,it can be applied in predicting and controlling of impacting frequency and some other technology parameters.
借助数理统计方法建立了球体冲击器冲击频率与风压、风量之间高度显著的相关关系式,可用于冲击频率及其它工艺参数的预测与控制。
3.
And introduce a way to im- pacting energy calculation character and impacting frequency calculation.
阐述了阀式正作用冲击器的工作原理,并介绍一种阀式正作用液压冲击器的冲击功,冲击能量以及冲击频率的理论计算方法,并通过实例对该种计算方法进行验证,结果与预案设计的参数值比较接近,是可行的。
补充资料:冲动
1.诱动;挑动。 2.冲击撼动。 3.感情特别强烈,理性控制很薄弱的心理现象。 4.犹轰动。
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