二级模型采用经典的平方根模型拟合,发现杂色曲霉生长速率与温度呈较好的线性关系。
The secondary model was based on the classical Square Root equation, which displayed a good linear relationship between the growth rate of Aspergillus versicolor and temperature.
二维生长速率常数随超电势线性增加。
The rate constant of the two-dimensional growth increased linearly with overpotential.
随着溅射电压的增大,薄膜的生长速率随之增大,二者近似线性关系。
With the augment of sputtering voltage, the growth speed of films became higher accordingly and the relation was nearly linear under the experimented conditions.
叶片相对扩展速率(RER)在指数生长阶段迅速增加,但在线性生长和稳定生长阶段则逐渐减小。
The relative expansion rate(RER)of leaves increases at the EG phase, but gradually reduces at the LSG and SCG phases.
叶片相对扩展速率(RER)在指数生长阶段迅速增加,但在线性生长和稳定生长阶段则逐渐减小。
The relative expansion rate(RER)of leaves increases at the EG phase, but gradually reduces at the LSG and SCG phases.
应用推荐