随着介质温度的升高,湿度的降低,横向水分扩散系数增大。
Moisture diffusion coefficients across grain direction increase with medium temperature increasing and humidity decreasing.
低于玻璃应变温度,互扩散系数几乎不依赖玻璃中的氧化钠浓度,而略随离子交换时间增加而增大。
Below the glass strain temperature, interdiffusion coefficients are almost independence of sodium oxide concentration in the glasses and somewhat increase with long ion exchange time.
实验结果表明,有效扩散系数随温度升高而增大,吸咐平衡常数则正好相反。
With the increase of temperature the adsorption equilibrium constants decrease while the effective diffusivity increases.
此外,随着退火温度的提高,氢渗透时间和氢陷阱系数也增大,而氢的扩散系数则降低。
In addition, both hydrogen permeation time and trapping coefficient of hydrogen increase but the hydrogen diffusivity decreases in the steel with the elevation of annealing temperature.
结果表明,扩散系数随环境湿度增大而增大。
The result shows that the diffusion increases with the increase of relative humidity.
结果表明,蛋白质的孔扩散系数随初始浓度的增大而下降;
The results showed that the pore diffusivity decreased with increasing initial protein concentration.
结果显示,随着水蒸气活度的增加,膜内水分子簇尺寸增大,并在膜的微孔内产生多层吸附甚至毛细管冷凝,导致扩散系数迅速降低。
With the increase of mean cluster size(MCS)at different water activities, multi-layer sorption and capillary condensation occur, which lead to the diminution of diffusion coefficients in P…
自扩散系数随温度增加而增大。
The diffusion coefficients increased linearly with the increase of temperature.
结果表明扩散系数和扩散距离都随着负衬底偏压的增大而增大。
The results showed that diffusion coefficient and diffusive distance increased with raising of negative substrate bias.
结果表明扩散系数和扩散距离都随着负衬底偏压的增大而增大。
The deposition rate increases with the increasing of bias voltage pressure.
烃分子的吸附平衡常数随温度的升高而降低,而扩散系数随温度的升高而增大。
The adsorption equilibrium constants decreased with the temperature, while the diffusivity increased with temperature.
结果表明,GMZM的导热系数、热容量和热扩散系数随压实密度的增大而显著增大,随着含水量的增大而增大;
The experimental results show that thermal conductivity, thermal capacity and thermal diffusivity of GMZM increase as the dry density and water content increase.
结果表明,GMZM的导热系数、热容量和热扩散系数随压实密度的增大而显著增大,随着含水量的增大而增大;
The experimental results show that thermal conductivity, thermal capacity and thermal diffusivity of GMZM increase as the dry density and water content increase.
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