1) crystal thermodynamics character
晶体热力学性质
1.
The author discussed how the template effects the appearance of HAP from two aspects,crystal thermodynamics characters and crystal dynamics.
从晶体热力学性质和晶体生长动力学两个方面分析了模板对羟基磷灰石晶须形貌的影响,探讨了羟基磷灰石晶须的生长机理。
2) thermodynamic property
熔体热力学性质
3) thermodynamics properties
热力学性质
1.
Study on thermodynamics properties of Van de Waals nitrogen gas in low temperature
范德瓦尔斯氮气的低温热力学性质研究
2.
The vibrational frequencies,the IR spectra and the thermodynamics properties in different temperatures of the system were obtained on the basis of vibrational analysis, the relations of the effects of temperatures on thermodynamics properties were also obtained.
用B3LYP法,在6-31G(d,p)基组水平上计算4,6-双-(5-氨基-3-硝基-1,2,4-三唑-1-基)-5-硝基嘧啶(DANTNP)的性能,得其稳定的几何构型和键级;在振动分析的基础上求得体系的振动频率、IR谱及不同温度的热力学性质及温度对热力学性能影响的关系式。
3.
The vibrational frequencies,the IR spectra and the thermodynamics properties in different temperatures of the system were obtained on the basis of vibrational analysis,the relations of the effects of temperatures on thermodynamics properties were also obtained.
用B3LYP法,在6-31G(d,p)基组水平上计算二硝基吡唑并吡唑(DNPP)的性能,得其稳定的几何构型、分子轨道及键级;在振动分析的基础上求得体系的振动频率、IR谱及不同温度下的热力学性质,并得温度对热力学性能影响的关系式;用Monte-Carlo方法从理论上计算密度,运用Kamlet公式预测爆速。
4) thermodynamic properties
热力学性质
1.
QSPR research of thermodynamic properties of polychlorinated biphenyl;
多氯联苯热力学性质的构效关系
2.
Quantitative-structure property relationship between intrinsic frequencies with molecular structure vibrating and thermodynamic properties for alkannes;
分子结构振动固有频率与链烷烃热力学性质的定量关系
3.
First-principle lattice dynamics study on thermodynamic properties;
材料热力学性质的第一原理晶格振动计算研究
5) thermodynamical properties
热力学性质
1.
New method of study on thermodynamical properties in Mn-Fe-P-C system;
研究Mn-Fe-P-C系热力学性质的新方法
2.
Relations between thermodynamical properties in Mn-Fe alloy melt and temperature;
Mn-Fe熔体热力学性质与温度的关系
3.
Study on relations between thermodynamical properties in Mn -based systems and temperature;
Mn基体系热力学性质与温度关系的研究
6) thermodynamics
[英][,θɜ:məʊdaɪ'næmɪks] [美]['θɝmodaɪ'næmɪks]
热力学性质
1.
Thermodynamics of Mn-based Mn-Fe-P-C Systems;
锰基Mn-Fe-P-C系热力学性质
2.
Studying the thermodynamics of ZnCl_2 in mixed solvent (ethanol and water)
ZnCl_2在混合溶剂(乙醇-水)中的热力学性质
3.
The thermodynamics of electrolyte solution at high temperature and high pressure is important not only in the research of earth fluid, but also in the application of industrial process.
高温高压下电解质溶液热力学性质的研究不仅对探讨地球内部流体的作用具有重要意义 ,而且在很多实际工业过程中也都有广泛应用。
补充资料:晶体生长热力学
晶体生长热力学
thermodynamics of crystal growth
晶体生长热力学thermodynamies of crystalgrowth用宏观、唯象的热力学原理,阐明晶体生长过程的学科。是在热力学理论基础上发展起来的。 在晶体生长系统中,若晶体相和母相(气相、液相或固相)处于热力学平衡状态,则晶体不生长也不消灭。若母相为亚稳相,如熔体生长中的过冷熔体、气相或溶液生长中的过饱和蒸气或溶液,而晶体为稳定相,则母相将转变为晶体相,伴随着系统吉布斯自由能的降低,形成晶体生长的驱动力。 晶体先在母相中成核,而后成长。在处于亚稳相的母相中,由于热涨落而形成与晶体结构相同的胚团,它能否长大,取决于两个因素:①亚稳相转变为稳定相降低了吉布斯自由能;②胚团的出现产生了母相和胚团之间的界面,界面能增加了系统的吉布斯自由能,从而形成阻碍向新相转变的势垒。当前一自由能的下降值等于后一界面能增加值时,胚团的大小称为临界尺寸。凡是小于临界尺寸的胚团都将自动消失,只有大于临界尺寸的胚团才能自发地成长为晶体。 根据界面能的各向异性,G.乌尔夫(WulfD在1901年首先得出晶体表面能关于取向的关系图,即乌尔夫表面能极图,并用来确定晶体的平衡形状(见乌尔夫表面能极图)。表面能极小决定晶体的平衡形状。用作图法求得表面能极图中体积为最小的内接多面体,晶体的平衡形状相似于这个多面体。这一结果是在晶体尺寸很小,界面能极小条件成为决定晶体形状主导因素情况下晶体的平衡形状。(洪静芬)
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