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1)  thermodynamics and kinetics
热力学和动力学
1.
Cycloaddition reaction of dimethylcarbene and ethylene and study on its thermodynamics and kinetics;
二甲基卡宾与乙烯的环加成反应及热力学和动力学研究
2.
The thermodynamics and kinetics of clay's intercalation/exfoliation in epoxy were also discussed.
从环氧树脂/粘土纳米复合材料的结构类型、制备方法以及影响粘土在环氧树脂中插层/解离的因素(烷基铵改性剂、粘土特性、固化剂、固化工艺)、粘土插层/解离的热力学和动力学等方面对环氧树脂基纳米复合材料的研究进展进行了较为深入而详尽的综述。
3.
The solidification microstructure, reactive thermodynamics and kinetics and influencing factors on the particulate size and distribution have been investigated by some modern analyzer equipments, for example, optical microscope (OM), scanning electron microscope (SEM), electron-probe microanalyzer (EPMA),.
本文开发了Al-Zr-O-B原位反应新体系,研究了熔体反应技术并成功制备了(Al_3Zr+Al_2O_3+ZrB_2)p/Al和(Al_3Zr+Al_2O_3+ZrB_2)p/Al-4Cu新型复合材料:利用扫描电镜、电子探针、X-射线衍射仪、差热分析仪等现代分析手段分析了该复合材料的凝固组织,并探讨了Al-Zr-O-B复合材料的反应热力学和动力学以及影响颗粒大小和分布的因素;研究了复合材料的力学性能和耐磨性能,分析了复合材料的断裂行为、强化机制和磨损机制。
2)  kinetic and thermodynamics
动力学和热力学
1.
The adsorption equilibrium and adsorption kinetic and thermodynamics of methylene blue on the adsorbent were studied.
研究了该种吸附剂对亚甲基蓝的吸附过程,并对其吸附平衡、吸附动力学和热力学进行了研究。
3)  thermodynamic and kinetic properties
热力学和动力学性质
1.
Computational studies on thermodynamic and kinetic properties of the dehydrogenation reaction of singlet phosphinidene;
单重态磷烯脱氢反应的热力学和动力学性质计算的研究
2.
Based on the quantum chemical study of the reaction of F with O3, the statistical thermodynamics and Eyring transition state theory with Wigner correction are used to calculate the thermodynamic and kinetic properties of this reaction at the temperature range of (98.
15)K温度范围内活性F原子和臭氧O_3反应的热力学和动力学性质,给出了整个反应的热力学数据和各步反应的动力学数据。
4)  thermodynamic and kinetic calculation
热力学和动力学计算
5)  Reaction thermodynamics and kinetics
反应热力学和动力学
6)  Adsorption thermodynamics and dynamics
吸附热力学和动力学
补充资料:热力学临界磁场(`H_c`)(thermodynamiccriticalmagneticfield($H_c$))
热力学临界磁场(`H_c`)(thermodynamiccriticalmagneticfield($H_c$))

见“凝聚能”。Hc也可通过可逆磁化曲线M=M(H)求出的面积值来表示:

$int_0^{H_c}\mu_0MdH=\frac{1}{2}\mu_0H_c^2$

这里M是磁化强度,μ0是真空磁导率。Hc(T)与温度近似遵照如下关系:

$H_c(T)=H_c(0)[1-(\frac{T}{T_c})^2]$

在GL理论中

$H_c(T)=\alpha(T)//(\mu_0\beta)^{1/2}$

α(T)和β是GL自由能密度的展式系数。在BCS理论中,

当T→0时

Hc(T)=Hc(0)[1-(1.06)(T/Tc)2],

当T→Tc时

Hc(T)=(1.74)Hc(0)(1-T/Tc),



$H_c(0)=[4\piN(0)\Delta^2(0)]^{1/2}

Hc(0),N(0)和Δ(0)分别是T=0K时的热力学临界磁场强度,态密度和能隙。

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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