| 1. | Kinetic parameters for growth of thiobacillus ferrooxidans
氧化亚铁硫杆菌生长动力学参数 |
| 2. | Progress on growth kinetics of thiobacillus ferrooxidans
氧化亚铁硫杆菌生长动力学的研究进展 |
| 3. | Monte carlo simulation study on crystal growth mechanism and kinetics
晶体生长机制和生长动力学的蒙特卡罗模拟研究 |
| 4. | Effect of filter paper on shoot induction and genetic transformation of artemisia annua l
银型磷酸锆盐抗菌粉对青蒿根生长的影响及生长动力学研究 |
| 5. | In addition , the growth mechanism on porous silicon has been discussed in view of growth kinetics
从晶体生长动力学角度分析了多孔硅上外延硅的生长机理。 |
| 6. | Studies of the growth kinetics and induction strategy with a strain of recombinant yeast pichia pastoris expressing the human insulin gene
表达胰岛素的毕赤酵母生长动力学及诱导策略 |
| 7. | It is conformed by debsity of peaks , one dimension power density spectrum ( 1d psd ) and two dimension power density spectrum ( 2d psd )
并用峰的密度、一维功率密度谱( 1dpsd )和二维功率密度( 2dpsd )谱进一步证实了我们对zno薄膜的生长动力学过程的分析。 |
| 8. | In chapter l , the concepts of ceramic microstructure , the basic theory of grain growth kinetics , monte caro simulation model and other computer simulation models are indoduced
第一章绪论:简要介绍陶瓷显微结构的概念以及晶粒生长动力学的基础理论;概述晶粒生长的montecarlo的基础仿真模型以及其它的计算机仿真模型。 |
| 9. | Moreover , the microstufore of ceramics is not static but dynamic , therefore , it ' s necessary to study the grain growth kinetics which has close relation with the evollltion of ceramic microsmicthe
而且陶瓷的微观结构并不是静止的,而是处于非平衡的动态之中,因此有必要研究与陶瓷微观结构演化密切相关的晶粒生长动力学问题。 |
| 10. | Both the qualitative pictures and the quamitative data , such as grain growth kinetics exponent ( aboul 1 . 8 in the early stage and 5 . 5 in the late stage of grain growth ) and the values of fractal dimension ( about 2 . 6 in the early stage and 2 . 2 in the late stage of grain growth ) , show that the simulation work is in good agreement with experimental results reported
不论是从定性的仿真图形分析还是从定量的晶粒生长动力学指数k (生长初期约为1 . 8 ,生长后期约为5 . 5 )或是晶界的分维值d (生长初期约为2 . 6 ,生长后期约为2 . 2 ) ,都说明我们的仿真工作与其它报导的实验结果互相一致。 |
