sped work meaning in Chinese
速度训练
Examples
- Yetter balances shorter repeats to build endurance with longer repeats for higher quality speed work
耶特则很好地平衡了耐力和速度训练所需要的长短距离的反复练习。 - The characteristic of engine exciting is analyzed . the hydraulic mount system " simulating calculation on idle working condition and high speed working condition is carried out by adams
分析了发动机激励的特点,运用adams进行了动力总成液压悬置系统的怠速和高速工况下的仿真计算。 - The knife falls directly on the roller anvil of special material to clip the veneer . this mechanism coupled with the high speed working stopping the feeding of veneer because it is only a spillt second that the knife stops the veneer at the time of clipping
剪切刀高速的直接落在特殊材质的倒贴轮上来剪断单板,在这剪切过程中,只需极短的时间,因而不必停止单板的进料输送,达成极高的工作效率。 - By the system applying , it avoids slow - speed working and realize the modernization of material management , it increases the degree of sharing of current data . these save plenty of time , and raise the personnel " s work efficiency . on the other hand , it changes the way of accessing traditional handcraft data
通过该系统的应用,加速了本单位实现物资管理现代化的进程,提高了现有物资的共享程度和工作人员的工作效率,对传统手工资料的存贮进行了革新,提高了物资管理的决策水平。 - In this paper , a new way of real - time damage detection method was proposed according to the high speed working situation of the composite flywheels for energy storage , and a suit of equipment was developed to test the composite samples with piezoelectric disc built - in , the response waves before and after the damage occurred were recorded to the computer . on the base of traditional spectrum analysis of signal recorded , the wavelet analysis was introduced and the program in matlab language was made . with the wavelet packet decomposition of the signal , the relations between the change of response signals and damage characters were gotten , a database for damage recognition was created
本文结合储能复合材料飞轮高速旋转的工作特点,提出了一种在线检测飞轮转子损伤的方法,自主设计一套实验装置对模拟各种损伤的的试样进行了测试,试样损伤前后的响应信号被采集后存入计算机中;在对采集信号进行传统的频谱分析的基础上,引入了先进的小波分析理论,利用matlab语言编写程序,对信号进行小波分解,得到了信号变化和损伤特征之间的关系,建立了一个识别飞轮损伤的数据库;小波包分解得到信号对比图和特征向量,可以有效判定材料内部有无损伤和损伤的程度,结合频谱分析等,可一定程度上判定损伤的类型,为储能飞轮的安全运转和智能化运作提供了决策依据。