1) quantity loss
数量损耗
2) loss factor measurement
损耗系数测量
3) energy consumption
能量损耗
1.
Analysis of energy consumption in blank holding of single-action deep-drawing hydraulic press;
单动拉深液压机压边能量损耗分析
2.
By analysing hydraulic system of motorized wheel dump truck, the model of energy consumption is set up.
通过对电动轮自卸车液压系统的分析,建立系统能量损耗模型,并进行计算仿真,可以得出这种系统的能量损耗主要是单向阀的泄漏损失,单向阀的泄漏流量是影响能量损耗的主要参数,而与蓄能器的容积无关,并且得出系统保压时间为60秒。
3.
Analyzed the minimum theory and the theories of DC electric power drag system ,the mathematics model of the energy consumption is built, the optimization answer of controls parameter used by armature electric current is resolved according to the minimum theory, and the feasibility of the minimum energy consumption is analyzed .
在分析了极小值原理和直流电力拖动系统的基础上 ,建立了与能量损耗有关的数学模型 ,利用极小值原理解出了以电枢电流为控制量的最优解 ,并对最小能量损耗控制的可行性进行了分
4) loss modulus
损耗模量
1.
It was concluded that the elastic modulus G′, loss modulus G″ and dynamic viscosity η~ of PLA and its copolymers increases with the increasing of the molecular weight.
结果表明,随着分子量的增加,聚乳酸及其共聚物熔体的弹性模量G′、损耗模量G″及动态黏度η*大幅度地提高,出现假固态行为;分子链柔性较好的共聚组分PEG的引入降低了共聚物熔体的G′、G″及η*;聚合物分子量的多分散性导致聚合物熔体的流动出现了非终端效应;聚乳酸的引入使聚丙烯熔体的G′、G″及η*都有所下降,马来酸酐接枝改性的聚丙烯的引入增大了共混物的G′、G″及η*。
2.
As an application,the scaling exponents of elastic modulus and loss modulus are also obtained.
作为应用,进而得到弹性模量和损耗模量的标度指数。
3.
The effects of the mass concentration and the salinity and the shear angular frequency of the polymer solution on its loss modulus and storage modulus are studied.
为了研究聚合物KYPAM-6A溶液在油藏条件下的黏弹性情况,根据SY5523-2000配置聚合物溶液进行实验,研究质量浓度、矿化度、角频率的变化对溶液损耗模量、储存模量的影响。
5) energy loss
能量损耗
1.
The Analysis and Management System for Energy Loss of Whole Power Network;
全网能量损耗分析与管理系统
2.
While the circular tunnel is filled with coal, the energy loss is related with conductivity of coal.
进而证明了圆形隧道充满煤介质时能量损耗与其电导率有关 ,隧道中悬浮的粉尘在电磁场作用下发生瑞利散射 ,散射功率的一部分构成损耗 ,能量损耗与粉尘分布密度成正比 。
3.
The energy losses, friction stresses, back stresses and shape parameters of hysteresis loops were measured from the hysteresi.
记录了各循环周次的应力、应力-应变滞后回线,根据回线的面积和形状计算了循环形变中的能量损耗、摩擦应力、反馈应力及形状参量。
6) energy consumption
能量耗损
1.
Researches on energy consumption mechanism and energysaving principles of hydrocyclones.Ⅰ.Theoretical Analysis of Energy Consumption;
水力旋流器能耗机制与节能原理研究Ⅰ.能量耗损理论分析
2.
The turbulence structure control by adding component parts similar to the large eddy break up device and riblets in the hydrocyclone was investigated by studying the characteristics of the turbulent pressure field,and the relationship between turbulence structure variation and energy consumption reduction was also studied.
本文将采用设置类似大涡破碎器和流向棱纹面的方法,对旋流器内的湍流结构进行控制,并研究其湍流结构的变化与能量耗损降低的关系。
补充资料:能量损耗
分子式:
CAS号:
性质:变形周期中损失的能量与材料体积之比。亦称之为单位阻尼能。高分子材料具有黏弹性,发生变形时不是完全的弹性变形,而伴随着发生塑性变形。在发生塑性变形时,由于分子间或晶面间的滑移,摩擦生热等耗去了能量,因此不能使原加的能量完全以形变能贮存,并在恢复过程中释放。失去的那部分能量就属于能量损耗。正确了解这一点,就可以根据不同用途来进行选材,也对新材料的研究起指导作用。
CAS号:
性质:变形周期中损失的能量与材料体积之比。亦称之为单位阻尼能。高分子材料具有黏弹性,发生变形时不是完全的弹性变形,而伴随着发生塑性变形。在发生塑性变形时,由于分子间或晶面间的滑移,摩擦生热等耗去了能量,因此不能使原加的能量完全以形变能贮存,并在恢复过程中释放。失去的那部分能量就属于能量损耗。正确了解这一点,就可以根据不同用途来进行选材,也对新材料的研究起指导作用。
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