组元中马氏体的精细结构为孪晶亚结构。
Fine structure of martensite in M-A constituents is twin sub structure.
案例还包含一组元数据,即关于案例本身的信息。
The case also contains a set of metadata or information about the case.
本项试验的成功,验证了三组元发动机概念的可行性。
The successful test verifies that the concept of the three component engine is feasible.
组元活度的获得是合金热力学性质研究的一个重要方面。
Getting activity of component is an important aspect of researching the thermodynamic characters of alloy.
并给出计算条件下喷管轴线上的物理量和化学组元分布。
The flow properties including chemical species distribution along axis of the nozzle were also presented.
在三元相图中,每一种团簇与第三组元连接构成一条团簇线。
Each cluster was then connected to the third element in the ternary diagram to create a cluster line.
合金性能的变化与烧结过程中组元的自扩散和互扩散密切相关。
This is closely related with self diffusion and mutual diffusion of its components during sintering.
性能测试结果表明,三组元复合先驱体法制成样品的性能最佳。
The measurement indicates that the optimized performance can be achieved by three-element composite columbite precursor methods.
认为化学反应的速率是有限的,非平衡扩散采用双组元扩散模型。
It is assumed that the chemical reactions proceed at finite rate, a binary diffusion model is used for nonequilibrium diffusion.
介绍了国内外几种无毒单组元发动机技术的研究背景及研究现状。
This paper introduces the background and the status of the development of non-toxic mono-propellant engines at home and abroad.
过晶的,过低熔的:有大量的小组元,而不是同种组元的共晶组合。
Having the minor component present in a larger amount than in the eutectic composition of the same components.
单组元肼分解发动机的热控制与热分析是空间推进系统重要组成部分。
Thermal control of monopropellant catalytic decomposition hydrazine engines in important portion of space propulsive system.
以镍为活性组元,系统地研究了镍基芳烃加氢金属催化剂的抗硫性能。
The sulfur tolerance of nickel metal catalysts in aromatic hydrogenation has been studied systematically on the base of nickel active unit in this paper.
接着对2维2、3组元以及首次提出的4组元分别也进行了同样的分析。
Secondly, we analysed 2 dimension 2 components, 3 components and 4 components as well as proposed for the first time separately.
指出热解气体注入边界层的作用主要是增加热阻塞效应和改变壁面组元浓度。
The main effect of pyrolysis gas on surface behavior which increased heat blockage of boundary layer and varied the concentration of gas species are presented.
运用结构理论详细分析一个复杂的能量系统,计算结果得到组元产品的火用成本。
A complex energy system with structural theory is to be discussed in detail, and the exergy cost of its unit product is calculated.
利用激光粒子动态分析仪研究了某型双组元离心式喷注器的稳态和脉冲喷雾特性。
The stable and pulse spray characteristics of a type of bi-centrifugal swirl injector were studied experimentally with particle dynamic analyzer.
组元金属之间不均匀的塑性变形是导致组元金属在拉延过程中产生缺陷的主要根源。
The defects of the component metal during drawing results from the inhomogeneous plastic flow between the two component metals.
根据张力减径过程的变形特点,采用组元建模技术,编写了弹塑性有限元计算程序。
Based on the characteristics of tube stretch-reducing process, the elastic FE calculation program is prepared by means of the constituent element modeling technique.
二元以上合金的理想玻璃转变温度实际上是纯组元的的理想玻璃转变温度的平均值。
The ideal glass transformation temperature of ternary or more alloys is actually mean value of ideal glass transition temperature of components.
我们详细地给出了有效非线性响应跟颗粒浓度、退极化因子以及组元电导率之间的关系。
The effective nonlinear response is related to the granular concentration, the depolarization factor, and the conductivity of component.
建立了单组元发动机推力室系统(包括结构部件如隔热框、催化床、喷管等)的传热模型。
Based on a thermal model of monopropellant thrust chamber system including its components such as adiabatic frame, catalyst bed, nozzle etc.
对于非互溶性组元为主组元的材料研究,以钨基高比重粉末冶金合金为此类材料的典型代表。
For materials with immiscible elements which are main elements, powder metallurgy material of W-based heavy alloy is on a typical example.
IICEAPI中的Content对象允许用户从内容项中检索一组元数据属性。
The Content object in the II CE API allows for a user to retrieve a set of metadata properties from the content item.
应用分子相互作用体积模型和正规溶液模型对37个二元固态合金体系的组元活度进行了拟合。
The molecular interaction volume model(MIVM) and the regular solution model have been applied to fit the activities of components in 37 binary solid alloys.
为了更好的设计该类复合材料,界面受力以及组元受力的大小与分布规律的研究是非常重要的。
To design this functional composites better, the studies of the magnitude and the distribution of thermal stress in the interface and the components are very important.
应根据装置加工的具体状况,选择适宜的活性组元及载体,避免汽油的过度裂解和高的生焦率。
In accordance with the processing conditions, suitable selection of zeolite and matrix to avoid gasoline overcracking and high coke formation was suggested.
应根据装置加工的具体状况,选择适宜的活性组元及载体,避免汽油的过度裂解和高的生焦率。
In accordance with the processing conditions, suitable selection of zeolite and matrix to avoid gasoline overcracking and high coke formation was suggested.
应用推荐