Objective To study the influence of white matter anisotropic conductivity on scalp electric potential distribution.
目的研究脑白质各向异性电导率对头皮电位分布的影响。
We have dealt with effective conductivity tensor of the composites with local anisotropic components.
我们计算了定域各向异性材料的有效电导率张量。
In heterogeneous anisotropic materials the heat flow vector and conductivity are more complex.
在各向异性的非均质材料中,热流向量和热导率很复杂。
The models of specific electrical conductivity were studied which can be used for saturated anisotropic clay.
本文研讨可适用于各向异性饱和粘土的比电导模型。
The model can be used for the conductivity estimation in different directions in reservoir simulation and for the well space design in different orientations in anisotropic reservoirs.
该模型可用于计算油藏不同方向上的传导率,以及各向异性油藏中不同方位上的井距设计。
The anisotropic and inhomogeneous distribution of brain white matter conductivity is widespread, so the measure of its impact on forward problem of EEG is very important.
脑白质电导率的各向异性和非均质分布是广泛存在的,因此衡量其对脑电正问题计算的影响显得十分重要。
An anisotropic damage model and an effective thermal conductivity model were presented based on homogenization techniques for low-porosity brittle rocks subjected to mechanical and thermal loadings.
基于均匀化方法给出低孔隙率脆性岩石在热—力耦合荷载作用条件下的各向异性损伤模型和有效热传导特性模型。
An anisotropic damage model and an effective thermal conductivity model were presented based on homogenization techniques for low-porosity brittle rocks subjected to mechanical and thermal loadings.
基于均匀化方法给出低孔隙率脆性岩石在热—力耦合荷载作用条件下的各向异性损伤模型和有效热传导特性模型。
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