...业;专家;设备 关键词:磁性纸;磁性粒子;内腔填充;原位复合;磁性 [gap=1595]Key words:Magnetic paper; magnetic particle; lumen loading; in situ synthesis; magnetic property ...
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纳米磁性粒子(magnetic nanoparticles, MNPs)是以纳米磁性Fe3O4或γ-Fe2O3等为晶核,高分子基质或外表活性剂为壳,经包被或包埋而形成白勺一...
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学位论文 单志 羧基功能化纳米磁性粒子的合成、表征及在质粒DNA纯化中的应用 2006 纳米磁性粒子(magneticnanoparticles,MNPs)是以磁性Fe3O4或γ-Fe2O3等为晶核,高分子基质或表面活性剂为壳经包被或包埋而形成的一种新型复...
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Magnetic Fluid (MF) is a stability colloid which is composed of magnetic particles, surfactant and based liquid. MF has many special qualities which other solid materials and liquid materials don't have, such as solid's magnetism and liquid's fluidity.
磁流体是由磁性粒子、表面活性剂以及载液三者混合而成的一种稳定的胶状溶液。
参考来源 - 油酸钠包覆Fe304磁流体的制备及其包覆结构研究Typically,the mesoporous materials containing Fe,Co,Ni nanoparticles have fascinating magnetic properties and the carbon coating could protect the magnetic nanoparticles against environmental degradation. The property of the magnetic materials makes them find suitable application in magnetic separation.
尤其是含有铁,钴,镍等磁性粒子的有序介孔炭,碳的包覆作用可以用于保护磁性粒子免受环境侵蚀,此种材料可以被应用于磁性分离等领域。
参考来源 - 有序介孔炭/Ni复合材料的合成研究At the same time, basic properties of magnetic fluids are described in the paper, as well as detailed analysis of interaction between magnetic nanoparticles.
同时,本文描述了磁流体的基本特性,对磁流体中的磁性粒子进行了详细的受力分析。
参考来源 - 基于格子Boltzmann方法的磁流体特性研究·2,447,543篇论文数据,部分数据来源于NoteExpress
它是用这种纸以及一种塑料覆在上面,这里还有一些黑色磁性粒子。
It's this paper mend with a plastic cover and there's all these black magnetic particles here.
现在的数据中可能会有一些空白,但你仍然有一些,有用的磁性粒子。
Now you have a gap in your data and yet you still have some magnetic particles there that could be useful.
考察了复合磁性粒子的结构变化对其磁流变液沉降稳定性和流变学性能的影响。
The influences of structures changing of the composite magnetic particle on the sedimentation stability properties and the rheological properties of their MRF are studied.
So on your computer's hard drive are again, a whole bunch of tiny magnetic particles aligned this way or this way.
因此,你的电脑硬盘是完全是,有一簇按照这种方式排列的磁性粒子。
And when you actually wanna store information on disk, can you actually use, as we'll see in a moment, magnetic particles.
当你想在硬盘中存储信息时,我们将会用到后面,我们会谈论的一种称之为磁性粒子来实现它。
Now you have a gap in your data and yet you still have some magnetic particles there that could be useful.
现在的数据中可能会有一些空白,但你仍然有一些,有用的磁性粒子。
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