So we present a new terraced nuclear model for the complement of the classic crystal growth models.
二维核叠层模型是传统二维核晶体生长模型的补充。
The comparison of the calculated values for the model with the experimental data indicated that this model is reliable for diffusion controlled crystal growth.
模型计算与实验数据比较表明,湍流传质模型对扩散传质控制的晶体生长过程是可靠的。
A new model is proposed to simulate the whole process of ultra thin crystal film growth.
建立一种新模型,模拟超薄晶体膜生长过程。
In the model, according to the two steps crystallization theory, the dynamics mechanism of crystal nucleation and growth was analyzed.
根据双步结晶理论,对蒸发结晶的成核和生长动力学进行分析,建立了成核和生长的理论模型。
A lattice kinetic Monte Carlo model for nano-crystal growth is presented and discussed in detail.
给出应用于纳米晶粒生长的动力学蒙特卡罗模型,并对模拟方法做了细致的讨论。
In addition, KDP crystal has a simple pattern, and it can be grown from solution easily. It is an ideal model for investigating crystal growth.
另外,KDP晶体形态简单,易于从水溶液中生长,使其成为研究晶体生长机理的理想对象。
The crystal growth kinetic model for SrSO_4 precipitation process was established according to superposition model and weak interaction model when there was EDTA in the system.
根据叠加模型和弱化模型,建立体系中有EDTA存在时,硫酸锶沉淀过程的晶体生长动力学模型。结果表明,硫酸锶沉淀过程中晶体生长属于表面反应控制机理。
The crystal growth kinetic model for SrSO_4 precipitation process was established according to superposition model and weak interaction model when there was EDTA in the system.
根据叠加模型和弱化模型,建立体系中有EDTA存在时,硫酸锶沉淀过程的晶体生长动力学模型。结果表明,硫酸锶沉淀过程中晶体生长属于表面反应控制机理。
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