导热系数是材料热物理性质的重要参数之一。
Thermal conductivity is one of the most important parameters of thermophysical properties of materials.
新型导热材料石墨泡沫具有很好的热物理性质。
The new material of graphite foam is a good thermal-conductivity material.
制冷工质的热物理性质使用隐式三次多项式拟合模型计算。
Refrigerant's thermal physical characteristics are calculated according to implicit cubic polynomial curve-fitting model.
介绍了一种推算多组分电解质水溶液热物理性质的系统方法。
A systematic method for prediction of thermophysical Properties of aqueous solutions of multicomponent electrolytes is introduced in this paper.
工况模拟中天然气的热物理性质参数是首先需要求得的参数。
In simulation, the parameters firstly to be calculated are those of natural gas thermal physical property.
介绍了《冶金熔体热物理性质数据库》的功能、结构与特点。
The present paper describes the functions, structure as well as the features of " Computerized thermophysical data bases for metallurgical melts".
模型考虑了工件材料的热物理性质随温度的变化以及处理参数的影响。
The model deals with the variety of material's thermal-physical properties, the parameters of plasma-arc treatment.
其中包括基本信息、热力学性质、热物理性质等以及与温度的关联式。
It includes basic information, thermodynamic and thermophysical properties and temperature-dependent correlation equations.
介绍塑料成型加工过程中固态聚合物性质、熔体的流动性质以及热物理性质等。
This paper introduces some polymer properties including solid property, melt flow property and some thermal physical properties in the molding.
导热系数是物质重要的热物理性质之一,对工程设计和科学研究具有重要的作用。
Thermal conductivity is one of the important thermal-physical property of matters, and is very important in both practical application and theoretical research.
导热系数是物质重要的热物理性质之一,对工程设计和科学研究具有重要的作用。
Based on these findings, an effective thermal conductivity can be attributed to a system of VIPs.
介绍了制冷剂热物理性质的内容和目前的测试精度、制冷剂的环境特性和评价指标。
The content and present testing accuracy of refrigerant thermophysical properties, environmental characteristics and evaluation guideline were introduced.
由于混合工质的热物理性质与CFC12不同,应用混合工质后必须调整制冷系统。
Since the thermophysics properties of mixture are different from CFC12, it is necessary to adjust the refrigerating system after using mixture.
展望了新的混合制冷剂的开发前景,并指出应加强新的混合制冷剂热物理性质的实验研究。
It envisions the developmental prospect of new mixing refrigerant. And it point to reinforce the experiment research on thermophysical properties of new mixing refrigerant.
展望了新的混合制冷剂的开发前景,并指出应加强新的混合制冷剂热物理性质的实验研究。
It envisions the developmental prospect of new mixing refrigerant. And it is necessary to reinforce the experiment research on thermophysical properties of new mixing refrigerant.
超临界CO_2的热物理性质是超临界CO_2萃取工业装置设计和模拟必需的基础数据。
The thermal properties of supercritical carbon dioxide(SCF CO_2) is the essential basic-data which the SCFE industrial equipments design and simulate.
简述了平面热源法瞬态测量材料热物理性质的基本原理,分析了快速法、脉冲法测量存在的问题。
At present paper, we recite the basic principle of plane hot fountain to measure the heat physical property instantly and analysis the problem between the instant measurement and pulse measurement.
另外,本发明的方法使所述电解质和所述电极结构热物理性质之间的差别得到协调并使之最小化。
In addition, the method of the invention harmonizes and minimizes the deviation among the thermophysical properties of the electrolyte and electrode structures.
本文首先针对混合工质的基本热物理性质进行了基础理论研究,分析了对于混合工质热泵的基本特性。
In this paper, the basic properties of thermal physics of mixed refrigerant are firstly studied in terms of theory and the essential features of heat pump using mixture are also analyzed.
鉴于以上所述情况,本文提出一套很有用的氙的液相和超临界流体相的热物理性质数据,供研究工作者参考。
In view of the above mentioned facts, this paper proposes a set of very useful thermophysical property data of liquid and supercritical fluid for xenon, giving a reference to research workers.
大气湿度对发动机换算转速影响的物理本质是随着湿度的变化使进入发动机的空气热物理性质也发生了变化。
The physical nature of humidity effects on engine corrected speed is that thermophysical characteristics of air entering engine varies with humidity.
大气湿度对发动机换算推力影响的物理本质是,随着湿度的变化,进入发动机的空气的热物理性质也发生了变化。
The physical nature of humidity effects on engine conversion thrust is that thermo-physical characteristics of air entering engine varies with humidity.
汽车空调压缩机中含油量高,油与制冷剂互溶后所形成的混合物的热物理性质不同于纯制冷剂,将引起压缩机性能明显变化。
Automotive air-conditioning compressor is rich in oil, and its performance is changed obviously by the thermo-physical properties of refrigerant-oil mixture, which is different from pure refrigerant.
汽车空调压缩机中含油量高,油与制冷剂互溶后所形成的混合物的热物理性质不同于纯制冷剂,将引起压缩机性能明显变化。
Automotive air-conditioning compressor is rich in oil, and its performance is changed obviously by the thermo-physical properties of refrigerant-oil mixture, which is different from pure refrigerant.
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