微粒数

浓度为0.5mg／ml的G4D6对常压及加压下的BTM细胞吞噬乳胶微粒数无影响。

G4D6 of 0.5mg/ml make no influence on BTM cells phagotrophy function .

随转速的升高，微粒数浓度大体上是单调增加的。

With speed increased , the particle number concentration increased monotonically .

乌梅炭品的微粒数和球形度评价

Evaluation on Particulate Number and Spherical Degree of Mume Carbon

微粒数随放置时间呈上升趋势；

There was a trend of increase in the number of particles along with time .

割锯安瓿的砂轮用不同方法消毒，对引入安瓿药液中微粒数差异有显著性。

Different methods to disinfect carborundum wheel have significant effect on the partical numbers in ampule .

结果：一定重量的单味药材和炮制品的显微特征微粒数为一常数。

RESULTS : The drugs and charred drugs per milligram contain a constant number of microscopic characteristic particles .

方法：观察注射液与输液液体混合液中的微粒数在混合液放置时间不同时微粒产生和变化情况。

Method : Observing the production and changes of particles in the mixed solution at different standing time .

随空燃比由小变大，聚集态微粒数浓度峰值逐渐降低，并且峰值粒径向粒径减小的方向迁移。

With the air-fuel ratio from small to big , the particle number concentration peak and peak particle size reduced gradually .

其次，根据微粒数分布离散性的特征，建立了微粒粒度分布函数的反演矩阵及其实验方法。

Secondly , the inversion matrix equation of the particle size distribution is obtained from the discrete characteristics of the particle distribution in both mathematical theories and experiments .

结果：两种中药注射液与5%葡萄糖注射液混合液中微粒数较与0.9%氯化钠注射液中增多显著。

Result : There were more distinctive particle changes in the mixture of herbal injections and 5 % Glucose Injection than those in the mixture of the herbal injections and 0.9 % Sodium Injection .

作者对空气层流无菌室中护理人员在不同状态下对≥05μm粒/L尘埃微粒数的影响作了对比测定。

Method ? The number of dust particle (≥ 0.5 ?μ m ) was detected and compared at air laminar flow bacteria free room in different situation , such as number of person , wearing of uniform and activity in the room .

测量结果表明，微粒粒数浓度随曲轴转角呈单峰状分布，峰值出现在14~18°CAATDC，燃烧后期约70%以上的微粒（粒数浓度）被氧化燃烧。

The experimental results indicated that the particulate number concentration showed unimodal distribution with the crank angle (° CA ), and the peak point lied at about 14 ~ 18 ° CA ATDC . The particulate was oxidized by above 70 % in the late combustion phase .

采用电子低压冲击仪（ELPI），测量燃烧过程中微粒的粒数、粒径分布规律。

The number and size distributions of in-cylinder particulate were investigated by the Electrical Low Pressure Impactor ( ELPI ) detection method .