1) Solid/liquid interfacial energy
固/液界面能
2) solid-liquid interfacial energy
固-液界面能
3) liquid-solid interface energy
液固界面能
1.
The influence of the undercooling,the recalescence temperature difference of primary graphite nucleation,and the liquid-solid interface energy on the growth morphology of graphite in the process of solidification of Fe-C-Si alloy were investigated.
采用热分析试验方法研究了Fe-C-Si合金凝固过程中过冷度的变化对石墨生长形态的影响,探讨了石墨结晶时的再辉温差与石墨生长形态间的相互关系,通过座滴法研究了液固界面能对石墨生长形态的影响。
4) solid-liquid interface free energy
固-液界面自由能
5) solid liquid interfacial free energy
固液界面自由能
1.
The estimated solid liquid interfacial free energy was expressed as σ sl ∝ T 1 4 in terms of the classical theory of homogeneous nucleation.
用均相成核的经典理论加以分析 ,估算得氯化铷离子簇的固液界面自由能σsl∝T1 4 ;用Gr偄n偄sy提出的扩散界面理论加以分析 ,估算得扩散界面厚度约为 0 195nm ,σsl∝T0 97。
6) L-S interface internal energy
液固界面内能
1.
This paper first etablishes the calculating modal of L-S interface internal energy, has finally derived its calculating formulae that are compared with text results.
本文首先建立液固界面内能计算模型,然后导出其计算公式并与实验结果比较。
补充资料:界面能
分子式:
CAS号:
性质:又称总表面能或表面内能。是在恒温恒压条件下增加单位界(或表)面体系内能的增量。
CAS号:
性质:又称总表面能或表面内能。是在恒温恒压条件下增加单位界(或表)面体系内能的增量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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