块体非晶合金是一类具有重要应用前景的亚稳多组元合金材料。
Bulk metallic glasses (BMGs) are a special kind of metastable complex metallic alloys with important potential applications.
为此,本文认为具有部分互溶组分活度系数的突变可做为多组元溶液分相的判据。
So the condition of phase separation for multicomponent solutions is that activity coefficient of some components have a increasation steeply at phase interface with partly miscible solution.
大过冷液相区与高热稳定性的多组元大块非晶合金材料,它涉及一种非晶态材料。
The present invention relates to a multi-component large-block amorphous alloy material with large supercooling liquid phase area and high thermal stability.
本文应用热质传递的类比理论,对伴有大的热效应的多组元绝热吸收过程进行分析。
Based on the principle of Similarity between mass transfer and heat transfer, the multicomponent adiabatic absorption process with large thermal effect is analyzed.
用多相、多组元平衡的热力学计算方法,对稀土碳锰纯净钢中夹杂物的析出和转化进行了计算。
Thermodynamic calculation on balance of multi-phases and multi-components was used to analyze the precipitation and transformation of inclusions in high purity carbon-manganese steel with La or Ce.
综述了多组元复合功能陶瓷粉体制备技术的研究进展,较详细地介绍了新出现的凝胶相反应合成法的工艺及其特点。
Progress in study on synthesis technique for multi-component functional ceramics powder is re- viewed. A novel synthesis technique, gel solid state reaction method, is described in detail.
本文以物料平衡为目标函数,选择液相摩尔分数为迭代变量,提出了多组元汽-液平衡闪蒸的矩阵法和对角线矩阵法。
The matrix method and diagonal matrix method of multi-component VLE flash are established in the paper by choosing mole Numbers as iteration variables and material balance as objective function.
结合我们现有的工程化学数据库(ECDB),该系统可以解决各种类型复杂矿高温冶金过程中的多相多组元平衡问题。
Combining with our available ECDB(Engineering Chemistry Data Base), this system can be used to solve multiphase multicomponent equilibria for various pyrometallurgical processes.
对多组元复杂体系(尤其是高温合金体系)在凝固过程中形成的通道偏析即黑斑的研究现状进行了评述,包括黑斑的存在方式、影响因素和物理特征等。
The research development of channel segregation (freckle) during solidification in multi-component systems is discussed, including the freckle characteristic, influencing factor and physical feature.
对多组元复杂体系(尤其是高温合金体系)在凝固过程中形成的通道偏析即黑斑的研究现状进行了评述,包括黑斑的存在方式、影响因素和物理特征等。
The research development of channel segregation (freckle) during solidification in multi-component systems is discussed, including the freckle characteristic, influencing factor and physical feature.
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