1) large-scale vibration mill
大型振动磨
1.
The revolving system of large-scale vibration mills is simplified into a three rotor system which is joined by two flexible coupling.
通过对大型振动磨机运动特性的研究分析,把其旋转系统简化为由两个柔性联轴节连接的三转子系统。
2) large-scale shaking table testing
大型振动台
1.
Analysis of earthquake response of subway station built on liquefied soil by large-scale shaking table testing;
液化大变形条件下地铁车站结构动力反应大型振动台试验研究
3) large vibrating screen
大型振动筛
1.
Analyzed large vibrating screen s dynamic characteristics of single channel and hyperstatic network structure and calculated natural frequency,natural mode of vibration and dynamic response based on finite element technology.
利用有限元分析法,对超静定网梁激振结构大型振动筛进行了动态特性分析,计算了筛体结构的固有频率、固有振型和结构的动力响应,提出对振动筛进行结构动力修改的方法,达到了筛体结构优化的目的。
2.
Thus it is an important research subject to design large vibrating screenings, raise the design level and improve working reliability and service life of vibrating screenings.
所以研究和制造大型振动筛,提升设计水平,提高振动筛的运行可靠性已成为一项重要的研究课题。
3.
The Augmented lagrangian method was used in the dynamic optimal design of large vibrating screen to confirm the best position of reinforcing rib on the side plate,and the lower dynamic stress with the least number of reinforcing ribs was achieved.
将增广拉格朗日乘子法应用到大型振动筛结构动态优化设计中,通过优化设计法找寻加强筋在振动筛侧板上的最优布置,达到以最少筋板数满足低应力的要求。
4) vibration ball mill,vibration mill
振动磨,振动球磨
5) vibrating,ball mill
振动球磨,振动磨
6) vibration grinding
振动磨削
1.
Study on the Mechanism of Material Removal of Ultrasonic Vibration Grinding of Ceramic;
超声振动磨削陶瓷材料高效去除机理研究
2.
The motion model of the contact between abrasive particle and workpiece in two-dimension ultrasonic vibration grinding was analyzed,the maximum cutting depth of a grain were obtained.
基于工件超声振动磨削的单磨粒运动模型,建立超声振动磨削单磨粒最大切削厚度agm ax公式;基于压痕断裂力学,给出硬脆材料超声振动磨削塑性-脆性转变临界条件,进行超声振动磨削与普通磨削对比试验,应用SEM和AFM分析陶瓷磨削表面微观形貌特征,重点研究磨削参数对其塑性-脆性转变特征的影响。
3.
Based on impulse theories and vibration cutting theories,the mathemetical model of work ultrasonic vibration grinding(WUVG) forces was established.
基于冲量理论和振动加工理论,采用叠加原理建立了工件横向施振超声振动磨削力数学模型。
补充资料:振动磨
分子式:
分子量:
CAS号:
性质:一种近代的超细磨设备。利用高频率振动的作用来粉碎物料。机身是卧式圆筒,装在由纵横弹簧所构成的框架上。筒内置研磨体(如钢球、钢棒、瓷球等)和物料,由一振动器使圆筒作高频率振动而将物料粉碎。按照振动特点可分为惯性式和偏心式。按照圆筒数目可分为单筒式和双筒(仓)式。按照主轴位置可分为轴在中央式和轴不在中央式。图示为一种三筒(仓)式振动磨。产品颗粒可细达50微米以下。效率很高。
分子量:
CAS号:
性质:一种近代的超细磨设备。利用高频率振动的作用来粉碎物料。机身是卧式圆筒,装在由纵横弹簧所构成的框架上。筒内置研磨体(如钢球、钢棒、瓷球等)和物料,由一振动器使圆筒作高频率振动而将物料粉碎。按照振动特点可分为惯性式和偏心式。按照圆筒数目可分为单筒式和双筒(仓)式。按照主轴位置可分为轴在中央式和轴不在中央式。图示为一种三筒(仓)式振动磨。产品颗粒可细达50微米以下。效率很高。
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