1)particle damper颗粒阻尼器
1.Design of circular particle damper for turbopump涡轮泵环形颗粒阻尼器设计(英文)
英文短句/例句
1.Design of circular particle damper for turbopump涡轮泵环形颗粒阻尼器设计(英文)
2.Application of Restoring Force Surface Method in Particle Damping Research;恢复力曲面法在颗粒阻尼器研究中的应用
3.single grain layer varistor单颗粒层电压敏电阻器
4.Experimental investigation on damping characteristics of NOPD columns非阻塞性微颗粒阻尼柱阻尼特性的实验研究
5.Experimental Research on Dynamic Characteristics of Non-Obstructive Particle Damping Elements;非阻塞性微颗粒阻尼构件动力特性的实验研究
6.Strong damping effects are possible because of solid particles in the chamber.燃烧室内的固体颗粒可能引起强烈的阻尼效应。
7.Research of damping characters of 6063Al/Al_2O_3·SiO_2 particle reinforced composites;6063Al/Al_2O_3·SiO_2颗粒增强复合材料的阻尼特征研究
8.Effect of Particle Size on the Damping Property of SiC_p/Al Composites颗粒尺寸对SiC_p/Al复合材料阻尼性能的影响
9.Effects of Rubber Particles Treated Surface on Concrete Damping Capacity表面处理的橡胶颗粒对混凝土阻尼性能的影响
10.Experiments of Vibration Reduction Effect of Particle Damping on Helicopter Rotor Blade颗粒阻尼对直升机旋翼桨叶减振效果的试验
11.Simulation of Dynamic Modulus and Damping Ratio Test on Filter Material by Particle Flow Code筑坝反滤料动模量和阻尼比试验的颗粒流模拟
12.Damping Capacity of SiC Particulate Reinforced Mg-Zn-Zr CompositesSiC颗粒增强镁-锌-锆基复合材料的阻尼性能
13.Simulation investigation on particle damping for its characteristic of loss power under vertical excitation垂直简谐激励下颗粒阻尼耗能特性的仿真研究
14.Study on Damping Behavior of Particulates Reinforced Al Matrix Composites Fabricated by Spray Atomization and Codeposition喷射共沉积颗粒增强铝基复合材料阻尼特性的研究
15.Influence of Heat Treatment on the Damping Capacity of 6013Al/Si/Gr MMC;热处理对颗粒增强铝基复合材料阻尼性能的影响
16.Research of Young's Modulus and Damping Mechanism of SiC_p/Al Composites碳化硅颗粒增强铝基复合材料弹性模量与阻尼机制研究
17.Study on Dislocation Damping Mechanism of Macroscopic Graphite Particulates Reinforced Commercially Pure Aluminum Metal Matrix Composites宏观石墨颗粒增强工业纯铝金属基复合材料位错阻尼机制的研究
18.Optimization Design of Type C Damped Filter Based on Particle Swarm Algorithms;基于粒子群算法的C型阻尼滤波器优化设计
相关短句/例句
electromagnetic particle damper电磁颗粒阻尼器
1.Theoretic and experimental investigation on electromagnetic particle damper;电磁颗粒阻尼器减振机理及试验研究
3)damping particles阻尼颗粒
4)particle damping颗粒阻尼
1.Experimental research on particle damping of cantilever beam;基于悬臂梁的颗粒阻尼实验
2.Simulation investigation on particle damping for its characteristic of loss power under vertical excitation垂直简谐激励下颗粒阻尼耗能特性的仿真研究
3.Non obstructive particle damping (NOPD) is a new composite damping technology which is based on traditional particle damping and impact damping techniques.非阻塞性微颗粒阻尼 (NOPD)是一种在传统颗粒阻尼和冲击阻尼技术基础上发展起来的适用于恶劣环境的复合阻尼新技术 ,具有良好的减振效果。
5)particle damping微颗粒阻尼
1.The ball element modal is used for non obstructive particle damping to reduce vibration of a cantilever, whereby the principle of model superposition is applied.基于作者曾建立的非阻塞性微颗粒阻尼(NonObstructive Particle Damping ,简称NOPD) 球体元模型,根据振型叠加原理,建立了悬臂梁NOPD 减振模型,并建立了NOPD 作用下悬臂梁强迫振动响应迭代计算公式;对悬臂梁NOPD 减振进行了计算机仿真计算,计算结果与实验结果有很好的一致性;同时对NOPD 在悬臂梁上的放置位置进行了优化研究。
2.The discrete element method is applied to study the mechanism of non obstructive particle damping (NOPD) .基于作者所建立的球状散体元模型,从细观上详细研究了非阻塞性微颗粒阻尼(NOPD) 的机理,为NOPD 的进一步工程应用提供了理论基础。
3.Non obstructive particle damping(NOPD) offers excellent damping and absorbing characteristics.非阻塞性微颗粒阻尼(NOPD)是在传统颗粒阻尼和冲击阻尼技术基础上发展起来的一种复合阻尼新技术,具有良好的阻尼特性,因而表现出极佳的减振效果。
6)Particle impact damping颗粒碰撞阻尼
延伸阅读
颗粒分子式:CAS号:性质:指小而圆的物质。最简单的颗粒形状是圆球。粒径在40~500μm范围内,气固密度差在1400~4000kg/m3之间的颗粒称粗颗粒(coarse particle);粒径在20~100μm范围内,气固密度差小于1400kg/m3的颗粒称细颗粒(fime particle);由许多个粒度间隔不大的粒级颗粒构成的颗粒系统称颗粒群(particle swarm)。
