摘要
建立三维模型,用蒙特卡洛有限元法对两相复合介质的内部电场分布进行模拟,并由此计算出介质的宏观介电常数εm.发现由三维模型计算出的低介相中的电场能量占总能量的比例高于二维模型.三维模型符合实际复合介质中微粒间并联程度大于串联程度的事实,因此由三维模型得出的电场分布和εm值比二维模型更加精确.得出了新的两相复合介质宏观介电常数预测公式:,其中α=(V12+20V1V2+5V22)/11,V1+V2=1,ε1<ε2.该公式与若干文献中的实验结果相吻合.
The interior electric field of a two-phased composite material was simulated by using Monte Carlo and finite element methods with 3-dimensional model, from which the macro dielectric constant, epsilon(m), of the material was calculated. The results show that the percentage of electric field energy stored in the low-permittivity phase to total energy calculated with 3-dimensional model is larger than that calculated with 2-dimensional model. Since the 3-dimensional model accords with the fact that the particles in real composite material are more parallel than serial connected, the simulated distribution of the electric field and with 3-dimensional model are more accurate than with 2-dimensional model. A new equation for predicting the macro dielectric constant of a two-phased compound derivedis: epsilon(m)(alpha) = V(1)epsilon(1)(alpha) + V(2)epsilon(2)(alpha), where alpha = (V-1(2) +20V(1)V(2) +20V(1)V(2) +5V(2)(2))/11, V-1 + V-2 = 1 and epsilon(1) < epsilon(2). This equation agrees well with the data from some literatures.
出处
《无机材料学报》
SCIE
EI
CAS
CSCD
北大核心
2004年第1期214-222,共9页
Journal of Inorganic Materials
关键词
复合介质
蒙特卡洛法
有限元法
混合定律
composite material
monte carlo method
finite element method
mixing rule
