1) flow activation entropy
流动活化熵
1.
The results showed that flow activation entropy increased by effective size gradation of filler and that flow activation energy increased too.
通过对不同温度下的聚丙烯填充复合体系剪切粘度的测定 ,以阿累尼乌斯公式对上述结果进行处理 ,发现经过合理的级配可以有效地提高填充复合体系的流动活化熵 ,同时体系的流动活化能将有所上升 ,从能量的角度上解释了以往发现的级配对聚合物复合材料体系粘度的降低作用的机理 。
2) activation entropy
活化熵
1.
The application of the activation entropy in deducing structures of activation complex compounds and mechanism of reactions as well as the influence of the activation entropy on the reaction rate have been discussed.
讨论了活化熵在推断活化络合物结构及反应机理中的应用以及活化熵对反应速率的影响。
3) isentropic flow
等熵流动
4) flow activation energy
流动活化能
1.
The results showed that flow activation entropy increased by effective size gradation of filler and that flow activation energy increased too.
通过对不同温度下的聚丙烯填充复合体系剪切粘度的测定 ,以阿累尼乌斯公式对上述结果进行处理 ,发现经过合理的级配可以有效地提高填充复合体系的流动活化熵 ,同时体系的流动活化能将有所上升 ,从能量的角度上解释了以往发现的级配对聚合物复合材料体系粘度的降低作用的机理 。
2.
In addtion, the change tendency of the flow activation energy was discussed initially.
此外,还测定了相应流动活化能,并对其变化趋势进行了初步说明。
3.
The results show that the zero shear viscosity η 0 of the solution decreases with the increase of acetic acid content and temperature, the decrease of chitosan content and the prolonging of the storage time, that flow activation energy (Δ E η) and structural viscosity index (Δη) increase with the increase of chitosan content and the decrease of acetic acid content,that the addition .
流动活化能ΔEη和结构粘度指数Δη随壳聚糖含量的增加、乙酸含量的减少而增大。
5) activation entropy of adsorption
吸附活化熵
6) entropy(automation)
熵(自动化)
补充资料:活化熵
分子式:
CAS号:
性质:化学动力学理论参量。指活化络合物理论中,由反应物形成活化络合物过程的标准熵的改变量,用符号ΔS表示,单位J/(K·mol)。
CAS号:
性质:化学动力学理论参量。指活化络合物理论中,由反应物形成活化络合物过程的标准熵的改变量,用符号ΔS表示,单位J/(K·mol)。
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