The drainage phenomenon leads to formation of free-bubble layer and the rheology of bubbles leads to formation of gradient pore structure.
排液的最终结果是在泡沫铝底部形成无泡层,气泡的流变引起泡沫铝梯度孔结构的变化;
Tamping the snow will leave a thin white layer stuck to the inside of the bubble ball.
夯实人造雪,让整个泡沫球内层都粘上薄薄的一层白色的雪。
A layer of the extension to the distance, slowly calm down, like breath like, leave a fleeting bubble, and shook the bad smell of seaweed.
一层层的浪涛向远处扩展延伸,慢慢平息下去,像是喘一口气似的,留下一片转瞬即逝的泡沫,还有摇晃着的海藻的霉腥味。
I did not pick up, but took her with me, with a quiet look at the bubbles fly away, bright afternoon sun to cast a layer of golden bubble of light.
我并没有去接,而是把她搂在身边,一起安静地看泡泡飞远,午后耀眼的阳光给泡泡罩上了一层金色的光。
We find that when the collapsing bubble approaches its minimum radius, a high pressure layer just outside the bubble is generated which gradually moves outward and subsequently forms a shock wave.
计算还发现,当气泡接近它的最小半径处,气泡外围形成很薄的高压区,这个高压区域随后向外传播,这就形成冲击波。
The hydrogen bubble flow visualization technique was used to study the effects of small semi-sphere on the boundary layer transition of flow over a smooth circular plate.
应用氢气泡流动显示技术对圆盘上小半球对边界层转捩的影响进行了观测。
The heat conduction equation is used to consider the energy transfer between the bubble and the surrounding liquid, as well as the temperature distribution in the liquid layer.
一维热传导公式用来考虑气泡和它周围液体之间的能量交换以及气-液交界层的温度分布。
By use of hydrogen bubble visualization method, flow evolutions are studied in an artificially excited transitional boundary layer on a flat plate.
利用氢气泡流动显示方法,研究人工激发条件下平板边界层转捩的流动现象。
The gas pressure directly influences bubble velocity (which affects the molten layer thickness), and the gas timing affects the formation of the solidified layer.
气压直接影响气泡速度(气泡速度影响熔体层厚度),气体注射时间影响了固化层的形成。
The merging of bubbles and formation of bubble-free layer were also described.
表述了气泡的合并和无泡层的形成。
Experimental results show that oil bubble point pressure decreases when water cut increases, but decrease of different layer was different.
结果表明,油藏含水率上升,原油饱和压力下降,但不同层位的下降幅度有所差异。
There are three main interior structure defects in the preparation of aluminum foam with melt foaming process such as free-bubble-layer at the bottom, partial free-bubble-zone and heat crack.
泡沫铝常见的内部缺陷主要有底部无泡层、局部无泡区和内部热裂纹。
There are three main interior structure defects in the preparation of aluminum foam with melt foaming process such as free-bubble-layer at the bottom, partial free-bubble-zone and heat crack.
泡沫铝常见的内部缺陷主要有底部无泡层、局部无泡区和内部热裂纹。
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