1) effective surface doping concentration
有效表面浓度
1.
The result of numerical analysis demonstrates that the effective surface doping concentration and the interface state density of the pocket or halo region are interface states R G current peak position dependent and amplitude dependent,respectively.
该峰的幅度对应于 pocket或 halo区的界面态大小 ,而其峰位置对应于 pocket或 halo区的有效表面浓度 。
2) surface availability
表面有效度
3) Effective concentration
有效浓度
1.
According to the analysis of typical BOF slags,the activities of FeO and CaO in the slags were obtained from the iso activity diagrams of (CaO+MgO+MnO) (SiO 2+ P 2O 5) FeO n system,whereby the effective concentrations of CaO and FeO in BOF slag were determined.
针对几种典型转炉渣的成分分析 ,由FeOn (CaO +MgO +MnO) (SiO2 +P2 O5)等活度图回归出氧化铁和氧化钙的活度 ,以确定其有效浓度 。
2.
Chosen the right dosage and fumigation method,maintained the effective concentration of PH 3,respiration,grow and reproduction of microorganism and pest were inhibited.
采用合理的剂量和熏蒸方法,保持粮堆内较长时间的PH3有效浓度,抑制了玉米的呼吸强度和微生物、害虫的生长繁殖,确保了玉米长期安全储藏,保持了较好的储粮品质。
3.
The results showed that the concentration of PH 3 can maintain above the effective concentration for a period of time,and no insects were found more than 12 months.
本文采用磷化铝间歇熏蒸法 ,使粮堆内部各处PH3浓度在一定的时间内保持在有效浓度之上 ,无虫期超过 12个月 ,有效地防治了锈赤扁谷盗。
4) surface concentration
表面浓度
1.
The isotherms illustrated by surface concentration cs in substitution for adsorption amount ns in the conventional method can more objectively reflect the thermodynamic principle that the lower the temperature is, the easier the adsorption carries out.
利用计量的表面浓度cs 代替常规法测定的吸附量ns 所得到的吸附等温线,更客观地反映温度降低利于吸附(cs 更大)的热力学原理。
2.
The dependence of surface concentration of CuEDTA2-, which is reduced to form copper and covered on specimen, on plating time has been determined.
利用一能使化学镀铜过程的阴极和阳极反应分别在不同电极上进行的装置测量了阴、阳极的“短路电流”,并以此电流近似地表示化学镀铜的速度,由“短路电流”随时间的变化推导了化学镀铜过程中阴极区反应物种的表面浓度的变化规律,并以此得到了计算稳态时化学镀铜速率的表达式。
5) effective surface energy density
有效表面能密度
6) effective chlorine density
有效氯浓度
1.
Determination of effective chlorine density in electrolyzed seawater by DPD spectrophotometric method;
DPD比色法测定电解海水产生的有效氯浓度
补充资料:肺泡气最低有效浓度
肺泡气最低有效浓度
mininum alveolar concentration,MAC
在一个大气压力下,50%的人或动物对皮肤刺激不发生体动反应时,肺泡气内吸入麻醉药的浓度。以容积百分比表示。它是用数字来表示各种吸入麻醉药镇痛效果的等价浓度或麻醉药强度的一种量化指标,MAC愈低,麻醉效力愈强。一种麻醉药浓度的临床体征亦可用MAC的倍数来表示。并用两种吸入麻醉药时则可使MAC减少。临床麻醉所需要的麻醉浓度是95%患者不出现体动时的肺泡气麻醉药浓度,相当于1.3MAC。清醒肺泡气最小浓度(MAC awake)是指50%患者对简单的指令能睁眼时的肺泡气麻醉药浓度,各种麻醉药的MAC唤醒与MAC之比均为0.6。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条