1) residual thermodynamic properties
剩余热力学性质
2) excess thermodynamic property
过剩热力学性质
4) remaining inertial force
剩余惯性力
1.
This paper uses analytics, combined with an optimization method, to calculate how much balance quantity should be added to the mechanism of crank slidebloch, in order to minimize the maximum of the remaining inertial forces of the mechanism.
采用解析法并结合优化来解决曲柄滑块机构应加多少平衡量,使得机构剩余惯性力最大值达到最小。
5) 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。
6) 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
补充资料:剩余热力学性质
分子式:
CAS号:
性质:指在相同的温度和压力下,理想气体和真实气体状态热力学性质的差值,以△M′表示,即△M′=M′—M。M′和M分别为理想气体和真实气体广度热力学性质的摩尔值。因此,对体积、焓、熵、自由能等都可写出其剩余函数。这些性质也称为位形性质。剩余热力学性质用来度量对理想性的偏差。以上举例的四种剩余热力学性质都可用P~V~T数据、状态方程和压缩因子等计算得到。
CAS号:
性质:指在相同的温度和压力下,理想气体和真实气体状态热力学性质的差值,以△M′表示,即△M′=M′—M。M′和M分别为理想气体和真实气体广度热力学性质的摩尔值。因此,对体积、焓、熵、自由能等都可写出其剩余函数。这些性质也称为位形性质。剩余热力学性质用来度量对理想性的偏差。以上举例的四种剩余热力学性质都可用P~V~T数据、状态方程和压缩因子等计算得到。
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参考词条