| 1. | Engine oil viscosity classification
发动机润滑油的粘度分类 |
| 2. | Engine oil viscosity classification
发动机润滑油粘度分类 |
| 3. | Influence of oil viscosity on surface roughness of cold rolling strip of stainless steel
油粘度对冷轧不锈钢带表面粗糙度的影响 |
| 4. | With the increasing of crude oil viscosity , the adsorbing speed of mbpp decreases
随著油品粘度的升高,熔喷聚丙烯非织造布吸油速率相应下降。 |
| 5. | Analytical approach of fluid physical property for heavy - oil reservoirs . crude oil viscosity measurements
稠油油藏流体物性分析方法.原油粘度测定 |
| 6. | Heavy oil viscosity reduction of was studied by using toluene as additive for catalytic aquathermolysis reaction in this paper
摘要以钼酸铵作为稠油水热裂解反应的催化剂。 |
| 7. | Therefore the effect of nitrogen on oil viscosity is less , while the oil viscosity is still the action of high temperature steam
此外,氮气对原油粘度影响较小,原油降粘仍是高温蒸汽的作用。 |
| 8. | In this step , first calculate the impulse press with the different triers , find out the influence of triers to the impulse press . then calculate the impulse press with the different pipeline system , hydraulic accumulator , supercharger and oil viscosity . at last , show the result in the forms of chart , also show the main character of the press curve
最后根据相应的数学模型进行仿真计算,先计算被试件在不同规格参数的条件下的脉冲压力响应结果,总结出被试件对脉冲压力波形的影响;再计算管道系统、蓄能器、增压器和油液的粘度在不同参数的条件下对脉冲压力波形的影响,以图形的形式表示,并给出压力波形主要特征的计算结果。 |
| 9. | And at the same time , considering the situation of varying oil viscosity and oil - flow inertia , this paper analyzes flowing properties of fluid in bearing clearance , which provide theory reference for more reasonable design and application of hydrostatic bearing in the equilibrium of axial force , and then carries out computer simulation a nd experiment verifying
同时,在考虑油液粘度变化和油流惯性的情况下,分析了支承缝隙中流体的流动特性,并进行计算机仿真和实验验证,这为静压支承在轴向力平衡中的进一步合理设计和应用提供了理论参考。 |
| 10. | Taking the hydrostatic equilibrium of axial force of pump dm360 as the example , this paper elaborates design calculation and dynamic - static characteristic analysis of hydrostatic bearing with twisting plate throttle , derives design parameters and formulas of bearing structure , discusses effects of various main factors ( oil viscosity , compressibility , distortion coefficient of twisting plate , pressure of oil source , and bearing clearance ) on dynamic characteristic , and obtains some conclusions about the application of hydrostatic bearing in engineering practice
本文以dm360型泵轴向力的液体静压支承平衡为例,对扭板节流静压支承的设计计算和动静态特性分析进行了较为详尽的阐述,推导出支承结构的设计参数和公式,讨论了各种主要因素(油液的粘度、油液的可压缩性、扭板变形系数、供油压力、支承间隙)对支承动态特性的影响,给出了一些结论。 |
