1) enthalpy of mixing
混合焓
1.
The enthalpy of mixing and entropy of mixing of the liquid melted have been predicted from data for the LiBr-SrBr2 system.
从LiBr—SrBr2体系的实验数据出发,预报了该体系液相混合焓和混合熵,计算得到的结果与实验相图和热力学数据相吻合。
2.
The results show that the molar enthalpy of mixing between iso-α(PbCl_2) liquid binarysubsystems PbCl_2-NaCl and PbCl_2-BaCl_2 is near zero, i.
用SETARAM量热计测量了873K时富PbCl_2区域PbCl_2-NaCl-Bacl_2三元熔盐的混合焓。
2) mixing enthalpy
混合焓
1.
The compatibility of PVC/PSf mixing was predicted by mixing enthalpy and characterized by Differential Scanning Calorimetry.
本文通过混合焓法预测并用差示扫描量热法表征了PVC/PSf共混体系的相容性,表明二者为部分相容体系。
2.
On the basis of analyzing the thermodynamic model of regular melt, the mixing enthalpy ΔH~ mix and the mixing entropy ΔS~ mix of typical metallic glass melts were calculated.
通过分析规则熔体的热力学模型,计算了典型金属玻璃的熔体混合焓ΔHmix和混合熵ΔSmix。
3.
The calculated mixing enthalpy values of the alloys are much closer to the published experimental results.
0%,计算得到的稀土铝合金系统混合焓与实验值更接近。
3) negative heat of mixing
负混合焓
1.
In the MA processing, the systems for the elemental powder mixtures, which possessing a lager negative heat of mixing, markedly promote the amorphization of Cu-Ti-Fe-Nb systems.
利用高能球磨技术研究了混合焓对Cu-Ti-Fe-Nb系非晶形成和晶化的影响,表明了具有较大负混合焓的体系容易形成非晶相。
4) mixing free enthalpy
混合自由焓
5) excess molar enthalpies
超额混合焓
1.
The excess molar enthalpies of binary mixtures for {Trimethyl Phosphate(TMP) + Methanol/Ethanol/Propan-1-ol/Butan-1-ol} were measured with a TAM Air Isothermal calorimeter at 298.
15 K和常压下的超额混合焓H_m~E,实验结果用Redlich-Kister多元方程进行拟合,并考察了方程各项对体系焓值的贡献。
6) enthalpy of solution of liquid phase
液态合金混合焓
补充资料:标准气化焓
分子式:
分子量:
CAS号:
性质:见汽化热。
分子量:
CAS号:
性质:见汽化热。
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