在不同的温度条件下,由于有不同组成的配合物生成,体系粘度最大值对应了不同熔体组分。
And different complex ions were formed at different temperatures, the highest points of viscosity in the system are corresponding with different compositions.
本文概括介绍了熔体结构的研究进展,着重讨论了熔体组分、温度及压力对熔体结构的影响。
After simple introduction the advance in silicate structure research, the influences of components, temperature and pressure on melt structure are discussed in detail.
解决方法要么是减少口模出口应力,要么是减少组分从熔体中分离的倾向。
Solutions are either to reduce die-exit stress or to reduce the tendency for components to separate from the melt.
采用偏硼酸锂熔样,电感耦合等离子体原子发射光谱(ICP-AES)法对黑色石材实现了一次熔样、全组分同时分析。
The lithium metaborate fusion sample and the Inductively Coupled Plasma-Atomic Emission Spectrometry (ICP-AES) method are used in the analysis of all-components of black stones.
磁场对于半导体晶体生长过程中的熔体流动模式有着明显的影响,因而可以改善晶体的组分和杂质的分布。
Because it can affect the mode of fluid in the process of growing semiconductors, the magnetic field can improve the distribution of composite and impurities in the crystal.
高温下CaF2的挥发造成了在晶体生长后期熔体中组分偏离化学计量比,出现组分过冷,形成包裹物。
The volatilization of CaF2 at a high temperature causes the deviation in composition from the stoichiometry, which results in the formation of inclusions and an increase in the dislocation density.
高温下CaF2的挥发造成了在晶体生长后期熔体中组分偏离化学计量比,出现组分过冷,形成包裹物。
The volatilization of CaF2 at a high temperature causes the deviation in composition from the stoichiometry, which results in the formation of inclusions and an increase in the dislocation density.
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