胶质气体泡沫(CGA)是高速搅拌表面活性剂时产生的一种微泡沫。
The colloid gas aphrons(CGA) are microfoams produced by high-speed agitated the surfactant.
对此,提出如下治理对策:采用新的钻井工艺,引进清水强钻和微泡沫钻井技术;
So, some countermeasures should be taken. New drilling technologies will be introduced including wash boring and micro-foam drilling.
制备出一种空心微珠增强聚氨酯泡沫复合材料。
One kind of the hollow bead reinforced polyurethane foam composite was prepared.
它与一种含有几十亿个微气泡的泡沫合并使用。
It works in conjunction with a foam that contains billions of tiny bubbles.
低温冷冻氘氚靶对于惯性约束聚变研究至关重要,主要有塑料微球靶、金属铍球靶、泡沫球壳靶等。
The cryogenic deuterium-tritium targets are very important to laser inertial confinement fusion, and mainly adopts plastics capsule, Be shell, foam shell etc.
以碎玻璃为主要原料,用V2O5作成核剂,再加入其它辅助原料制备了微晶泡沫玻璃。
Devitrified foam glass was prepared taking cullet as major raw material using V2O5 as nuclear agent and adding other auxiliary materials.
煮洋葱的同时,另外取一小平底锅,倒入白葡萄酒,微煮30秒去泡沫。
While the Onions are cooking, bring the wine to a boil in a small pan, then bubble away for 30 secs.
该技术是把有机泡沫微球作为成孔剂与热压注成型技术结合的制备技术。
The method combined the hot pressure casting-shaping technique with organic foam small-sphere as pore-making reagent.
此外,在已有的宏细观力学实验基础上,进一步分析了空心玻璃微珠对复合泡沫塑料的增强机理。
In addition, based on the macroscopic and microscopic experiments, the reinforced mechanism of hollow glass micro-spheres for polyurethane syntactic foams is discussed also.
研究了加入空心玻璃微珠后,硬质聚氨酯泡沫塑料的泡孔结构、压缩性能以及阻尼性能。
The cell structure, compression and damping properties of rigid polyurethane foam filled with hollow glass bead were studied.
采用前驱体微球法制备闭孔聚酰亚胺泡沫,并对其吸声性能进行了研究。
The closed cell polyimide foams were fabricated by foaming the precursor balloons, and the foams' acoustic absorption properties were tested.
由该淀粉可以制备微孔泡沫,该微孔泡沫可以被稳定为微囊。
From the starch, microporous foam can be prepared, which can be stabilized to microcapsules.
微球复合泡沫材料是一种新型的结构泡沫材料。
The syntactic foam is a new kind of structural foam which has lots of excellent properties such as light weight, high strength and so on.
结果表明:炭黑能加速聚氨酯泡沫的微相分离,明显地降低泡沫的力学性能;
The results indicate that CB has a positive effect on microphase separation, but a negative effect on the mechanical properties of PU;
空心玻璃微球是制备复合泡沫材料的关键原料,对其进行表面改性有利于改善复合材料的性能。
Hollow glass microspheres are used as a key material to produce syntactic foams. Surface modification of the microspheres is very important for improving properties of the foams.
空心玻璃微球是制备复合泡沫材料的关键原料,对其进行表面改性有利于改善复合材料的性能。
Hollow glass microspheres are used as a key material to produce syntactic foams. Surface modification of the microspheres is very important for improving properties of the foams.
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