Ag electroless deposited glass microsphere can be possibly used as conductive fil...
镀银玻璃微球有望用作高导电性聚合材料的导电填料。
Ag electroless deposited glass microsphere can be possibly used as conductive filler of high...
镀银玻璃微球有望用作高导电性聚合材料的导电填料。
The fabrication process of glass and glass microsphere for laser cooperation target was studied.
阐述了目标的漫反射特性对非合作目标相位式激光测距仪中光功率探测的重要性。
Ag electroless deposited glass microsphere can be possibly used as conductive filler of high conductive polymer materials.
镀银玻璃微球有望用作高导电性聚合材料的导电填料。
It was concluded that the three key technologies are the glass microsphere classifying, MSP body molding and sintering, dynode making of MSP.
指出了微球板电子倍增器研制中的三项关键技术:玻璃微球的制作、分级,坯体的成型与烧结和打拿极制作。
Objective:To determine the therapeutic effects of hepatic radioembolization with phosphorus 32 glass microsphere( 32 P GMS) in the treatment of hepatocellular carcinoma(HCC).
目的:探讨3 2磷玻璃微球内放射栓塞治疗中晚期肝癌的效果。
High strength solid buoyant material (SBM) is an important component of modern submersible technology. Hollow glass microsphere is one of the key materials for preparing SBM.
高强度固体浮力材料是现代深潜技术的重要组成部分之一,对保证潜器浮力、增大潜器有效载荷有着重要作用。
At last, the effective means of control the aperture of porous glass microsphere as well as the means of increasing the adsorption amount of porous glass microsphere is proposed.
总结出了多孔玻璃微珠孔径的控制方法和提高多孔玻璃微珠的吸附量的有效方法。
Electroless nickel plating process and its study trends on inorganic powder such as graphite powder, ceramic powder, aluminum powder, diamond, hollow glass microsphere were reviewed.
综述了无机粉末如石墨粉末、陶瓷粉末、铝粉、金刚石颗粒、空心玻璃微球等材料的化学镀镍研究及发展趋势。
Through the comparison of ingredient, the phase separation temperature and time, acid treatment time, we get the best technology of how to control the aperture of the porous glass microsphere.
通过对多孔玻璃微珠组分对比,分相温度、时间的对比,酸溶时间的对比,得到控制多孔玻璃微珠最佳工艺。
The glass fiber reinforced nylon 6 was modificated by the filling of the hollow microsphere.
利用空心微珠球型的特性,填充改性玻纤增强尼龙6。
The glass fiber reinforced nylon 6 was modificated by the filling of the hollow microsphere.
利用空心微珠球型的特性,填充改性玻纤增强尼龙6。
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