Silica micro-particles 硅微粒球体
micro- particles 唤肤微粒
activated carbon micro-particles 活性炭
Micro-particles 有形颗粒
Mie micro-particles 米氏粒子
sub-micro particles 超细颗粒
super-micro particles 超微粉颗粒
It was found that different systems of main solvent/ anti-solvent have a great effect on the morphology and size of polymer microparticles.
实验结果表明,溶剂/反溶剂的选择要考虑到溶质在溶剂/反溶剂体系中的溶解度大小,而且溶剂/反溶剂体系也是影响微粒的形貌和大小的一个重要因素。
参考来源 - 溶析结晶法制备聚合物微粒的研究When polyelectrolyte multilayers were assembled on different size of ZnCO_3 microparticles, different size hollow microcapsules can be obtained after ZnCO_3 microparticles were dissolved by HC1.
在不同粒径单分散的ZnCO_3微球上组装多层聚电解质可以得到不同粒径的空腔胶囊。
参考来源 - 在单分散ZnCOIn this paper, the researching status and technical characteristic of producing microparticles using Supercritical Fluids(SCF) precipitation are summarized and analyzed.
文中对超临界流体制备超微颗粒的研究现状和技术特点进行了综述和分析。
参考来源 - SAS法制备超微颗粒实验装置与喷嘴研制·2,447,543篇论文数据,部分数据来源于NoteExpress
The strengthen mechanism of micro particles is due to dispersion strengthening.
微米微粒的强化机理则主要归功于微粒的弥散强化作用。
As a conclusion, time is formed on the expenditure of energy of matter micro particles containing life.
由此可见,时间是能量在含有生命现象的物质微粒上的消耗而形成的。
Based on quantum mechanics and thermodynamics, a model of Carnot refrigeration cycle is proposed in which the working substance is composed of micro-particles contained in a potential well.
本文根据量子力学和热力学理论,提出了一种以大量的处在无限深势阱中的微观粒子为工质的量子卡诺制冷循环模型。
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