1) magnetic particle
磁粒子,磁粉
2) Magnetic granulation
磁粉丸粒化
3) magnetic particle
磁性粒子
1.
Development in absorbing wave composite of conductive polymers and magnetic particles;
导电聚合物与磁性粒子复合吸波材料的研究进展
2.
In order to improve the particle size and increase the saturation magnetization of Fe_3O_4 magnetic particle, NaNO_3, NaClO_3 and KMnO_4 are applied to oxygenate Fe(OH)_2, instead of air.
在以沉淀氧化法制备不同粒径大小、高比饱和磁化强度的Fe3O4磁性粒子过程中,用NaNO3,NaClO3和KMnO4代替传统的空气作氧化剂氧化Fe(OH)2。
3.
A magnetic particle second antibody (MSA I) was prepared by means of immobilizing donkey anti rabbit antiserum on Fe 3O 4 particles 10.
8nm±34%的Fe3O4粒子作磁性载体,物理吸附驴抗兔抗血清制备了磁性粒子第二抗体(MSA-I)。
4) magnetic particles
磁性粒子
1.
The influence of operating temperature,time,pH and the amount of surfactant on the stability of the magnetic particles were studied.
采用化学共沉淀法,选择NaOH作沉淀剂在水溶液中共沉淀FeCl2和FeCl3,制备纳米级铁氧体磁性粒子的水基磁流体,探讨了温度、碱的过量比、反应时间对磁流体基本性质的影响,着重讨论了磁性粒子形成的影响因素及其作用机理,并对产品进行了性能测试。
2.
In this paper, the nano-sized ferrite magnetic particles were prepared by chemical precipitation.
采用化学共沉淀法制备纳米级铁氧体磁性粒子,探讨温度、碱的过量比(y)、表面活性剂的用量比(n)、反应时间对磁流体基本性质的影响。
3.
After treating the surface of the ultra-fine Fe 2O 3,with using styrene and diethyl-benzene monomer, magnetic particles with 1μm or so in diameter were formed by suspension polymerization and ultrasonic technology.
对超级 γ- Fe2 O3磁粉进行处理 ,利用苯乙稀、二乙烯基苯单体 ,采用悬浮聚合法和超声波技术 ,可以合成粒径为 1μm左右的磁性粒子。
5) magnetic particle
磁粒子
1.
The magnetic particle according to the outside layer material wrap up,can produce the selectivity with cell to stick to attach,this characteristic can be used for the cell separation,choose separately,the medicine conveyance etc.
当磁粒子包裹相应的外层物质时,可以与细胞产生选择性黏附,该特性可用于细胞分离、分选、药物运输等。
2.
The magnetic particle can produce selective adhesion to cell according to the wrapping layer, and this feature can be used for the cell separation, selection and medicine transportation, etc.
磁粒子根据所包裹的外层物质,可以与细胞产生选择性黏附,该特性可用于细胞分离、分选、药物运输等。
6) Fe3O4 magnetic particle
Fe3O4磁粒子
1.
The results indicate that the Fe3O4 magnetic particles produced with ultrasonic technology are better than those without ultrasonic technology in the process of co-.
为制备磁粒子足够细小、均匀且稳定的磁性液体,将超声波技术引入Fe3O4磁粒子制备过程中,研究了化学共沉淀法制备Fe3O4磁粒子的不同阶段超声波功率对颗粒大小及磁性能的影响。
补充资料:丸粒
1.泛称圆形粒状的药物。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条