德拜模型

为研究频域谱法应用于变压器油纸绝缘状态检测的可行性，通过MATLAB矩阵分析软件建立油纸绝缘的扩展德拜模型进行仿真分析，并提出了介质响应测试的基本方法以及绝缘信息量的计算公式。

To study the feasibility of frequency domain methods in the detection of transformer oil-paper insulation status , an extended Debye model of oil-paper insulation was established by MATLAB .

本文描述了在德拜模型近似下，计算SODS的原理和方法；

The principle and method of evaluating the SODS are described by using the Debye model in this paper .

低温氮气氛下制备的BSTO薄膜，介电弛豫时间和温度的关系符合德拜模型，是热激发弛豫。

However , for the film prepared in N-2 atmosphere at 550 ℃, the temperature dependence of dielectric relaxation can be characterized by a thermally excited relaxation process .

应用德拜模型的统计力学方法计算金属的蒸气压

Calculation of Vapour Pressure of Metals by Statistical-Mechanical Method With the Debye Model

在德拜模型的基础上研究晶体的热力学行为。

This paper has presented the thermodynamics action of crystal based on the Debye model .

这些现象与结果可通过电介质的德拜模型和介质松弛理论进行分析与讨论。

The phenomena and results were discussed and analyzed by Debye 's model and dielectric relaxation theory .

基于最新的德拜模型氦-3状态方程、氦-3饱和曲线特征方程和熔化曲线特征方程编写了氦-3热物性计算程序。

Based on the Debye state equation and the phase equilibrium equations of helium-3 , a computer program for calculating the thermodynamic properties of helium-3 has been developed .

文章通过对德拜模型的研究，分析了利用德拜模型解决金属固体热容量与实验结果不一致的原因，并且研究了金属自由电子气对热容量的贡献。

There main analyzes the reason of the metal solid heat capacity is not same and experiment conclusion by studies the Debye model . and studies the contribution of metal solid heat capacity of free electronic gas .

第一性原理结合准简谐德拜模型可以在不耗费太多机时的情况比较快捷的计算物质的高压高温特性，计算的α和β橄榄石晶格参数随温度压力的变化与实验结果一致。

Combination of first-principles and the quasi-harmonic Debye model is an efficient approach to simulate the behavior of minerals at high pressure and / or high temperature . Variations of the calculated forsterite properties with temperature and pressure agree well with the experimental data . 5 .

米氏模型和德拜级数展开模型在气泡尺寸达到μm量级时不能很好地解释海水中大尺寸空泡的后向散射现象，计算速度较慢且容易溢出。

Since Mie model and Debye-series expansion model can not accurately explain the back scattering phenomenon of large dimensional bubbles in seawater when the size of the bubbles reaches micron order of magnitude and their calculation speeds are slow , a geometrical-physical optical model is put forward .

结果表明：新动力学方程包括动屏蔽和静异蔽两重效应，静屏蔽效果正好与过去考虑德拜屏蔽一致.这一测量结果可以用德拜模型来解释。

It is shown that static shielding and dynamical shielding are involved in Neokinetic equation . Static shielding effect is as Debye shielding . The data agree with the Debye model ;