最后还介绍了纳米粉末的表征方法。
采用阳极弧放电等离子体制备了高纯铁纳米粉末。
Pure Fe nanopowders were prepared successfully by method of anodic arc discharging plasma.
采用反应气体可以生产碳化物、氮化物纳米粉末。
When reaction gas is filled, nano carbide or nitride powder may be prepared.
本发明方法所制备的铝纳米粉末纯度高、粒径较小且分布均匀。
The aluminum nanometer powder prepared by the method has high purity, the particle diameter is smaller and the distribution is even.
综述了选择性激光烧结金属粉末材料和纳米粉末材料的研究进展。
Research progresses of metallic powder materials and nano powder materials fabricated by selective laser sintering (SLS) were reviewed in brief.
制备方法为:先将导电高分子纳米粉末与固化剂混合得到混合固化剂;
The preparation method is as follows: the conductive macromolecular nano powder is mixed with the curing agent to obtain mixed curing agent;
采用粉末微电极技术,对掺锑二氧化锡纳米粉末的电化学性质进行了研究。
Powder microelectrode techniques were taken to study the electrochemical property of Sb-doped SnO2 nanopowders.
采用直流电弧等离子体蒸发-凝聚法制备了高纯氮化铝(ain)纳米粉末。
Nanosize aluminium nitride (AIN) powder was prepared by evaporating and nitriding high purity aluminium in DC arc plasma reactor.
该镍离子掺杂的氧化镉基稀磁半导体纳米材料存在形态为纳米粉末和纳米薄膜。
The existence mode of the nickel ion-doped cadmium oxide-based diluted magnetic semiconductor nano material is the nano powder and the nano film.
利用透射电镜(TEM)、X射线衍射(XRD)、X射线光电子谱,表征了金纳米粉末的结构、形貌及其化学组分。
Their structure, morphology and components have been characterized using transmission electron microscope(TEM), X-rays diffraction(XRD), and X-rays photoelectron spectrometer(XPS).
与激光烧蚀块状靶材不同,激光烧蚀细丝法在烧蚀机理上实现了对靶材的整体爆炸式蒸发,从而大幅度提高了纳米粉末的产量。
Laser ablation of iron wire can realize explosive evaporation of the target, which is different from that laser ablation of bulk iron target in mechanism and may cause the production increase greatly.
然而,他们常常是纳米或微米粉末,这使他们很难从母液或作用体系的液相中分离出来[2]。
However, they are usually synthesized as nano-sized or micro-sized powders, and this makes it very difficult to retrieve them from the mother liquors or the liquid-phase reaction systems [2, 3].
然而,他们常常是纳米或微米粉末,这使他们很难从母液或作用体系的液相中分离出来[2]。
However, they are usually synthesized as nano-sized or micro-sized powders, and this makes it very difficult to retrieve them from the mother liquors or the liquid-phase reaction systems [2, 3].
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