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超微粒子制备
相关语句
  ultrafine powder preparation
     The Application of Ultrafine Powder Preparation Technology in Function Materials
     超微粒子制备技术在功能材料制造中的应用
短句来源
     The appilcation of ultrafine powder preparation technology in materials, especially its current application and prospect in varied function materials in ways of vapour deposit technology, CVD composite technology, PVD technology and Sol-Gel technology are reviewed.
     本文综述了超微粒子制备技术在材料中的应用,特别是与超微粒子气相沉积技术、CVD合成技术、PVD技术以及Sol-Gel技术等结合在各种功能材料中的应用方法及前景
短句来源
     The Application of Ultrafine Powder Preparation Technology in Functional Packaging especially its current application and prospect in varied function materials in ways of vapour deposit technology and Sol-Gel technology were reviewed.
     研究了超微粒子制备技术在功能包装中的应用 ,特别是与超微粒子气相沉积技术 ,CVD合成技术 ,PVD技术以及SOL -GEL技术等结合在各种功能包装材料中的应用方法及前景。
短句来源
     The Application of Ultrafine Powder Preparation Technology in Functional Packaging especially its current application and prospect in varied function materials in ways of vapour deposit technology and Sol-Gel technology were reviewed.
     研究了超微粒子制备技术在功能包装中的应用,特别是与超微粒子气相沉积技术,CVD合成技术,PVD技术以及SOL-GEL技术等结合在各种功能包装材料中的应用方法及前景。
     The Application of Ultrafine Powder Preparation Technology in the Manufacturing of Functional Packaging Materials
     超微粒子制备技术在功能包装材料制造中的应用研究
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  “超微粒子制备”译为未确定词的双语例句
     Application of Supercritical Fluid Technology in Making Ultra Micron
     超临界流体技术在超微粒子制备中的应用
短句来源
     Review of the methods of preparation of ultrafine particles
     超微粒子制备方法进展
短句来源
     The bottom line tells one of the ceramic materials research prospects in the preparation of fine ceramics of monodispersed power at present .
     说明用单分散超微粒子制备精细陶瓷是目前陶瓷材料研究的主要方向之一。
短句来源
  相似匹配句对
     Preparation of super microparticle and its application
     超微粒子制备及应用
短句来源
     PREPARATION OF ULTRAFINE IRONIC OXIDE
     超微粒子氧化铁的制备
短句来源
     Study on the Preparation of Glycerin Triacetate
     甘油三醋酸酯的制备
短句来源
     The Preparation of Copper Carbonate Hydroxide
     碱式碳酸铜的制备
短句来源
     Application of Ultramicroparticle
     超微粒子的应用
短句来源
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Plasma chemical reaction has relatively higher yield and better selectivity. It has been used in metal surface treatment, surface property modification, metallurgy, the preparation of inorganic film and ultramicrons, and synthetic chemistry with remarkable satisfactory results.

等离子体化学反应具有较高的收率和良好的选择性,已应用在金属表面处理、材料的表面改性、冶金、无机薄膜材料和超微粒子的制备、合成化学等领域并取得了卓越成效。

This paper reveals the nece- ssity of controlling ceramic component and structure at ultrastructural level; presents the technology about preparation of ultramicro ceramic particles by the use of monodispersed colloid;tells the stud- ied results in the field;predicts the re- search prospects in fine-ceramics of mo- nodispersed powder.The bottom line sh- ows that fabricating the fine ceramic by the use of monodispersed ultramicro cer- amic particles is a simple chemical pro- cessing for controlling ceramic ultrastru-...

This paper reveals the nece- ssity of controlling ceramic component and structure at ultrastructural level; presents the technology about preparation of ultramicro ceramic particles by the use of monodispersed colloid;tells the stud- ied results in the field;predicts the re- search prospects in fine-ceramics of mo- nodispersed powder.The bottom line sh- ows that fabricating the fine ceramic by the use of monodispersed ultramicro cer- amic particles is a simple chemical pro- cessing for controlling ceramic ultrastru- cture.

控制陶瓷微结构(microstructure)以提高和改善材料性能是目前精细陶瓷研究的主要方向之一。然而许多限制功能陶瓷的性能和稳定性的结构缺陷均来源于超微结构(ultrastructure)层次的不均匀性。本文阐述了在超微结构层次上控制陶瓷组成和结构的必要性,结合作者近年来的工作介绍了单分散(monodispersion)溶胶法制备陶瓷超微粒子的技术,以及单分散粉体精细陶瓷的研究前景。说明用单分散超微粒子制备精细陶瓷是简便易行的控制陶瓷超微结构的一种化学工艺。

Superfine MS (M=Cd, Hg, Zn,Pb) with different sizes (average diameter >10nm and average diameter -5nm) are obtained by controlling precipitation. The size of particles are measured via transmission electron microscopy and X-Ray Scattering at small angle. The optical properties of surfine particles are studied at extreme dilution. Smaller crystallites of about 5nm average diameter show large blue shifts in their absorption and ommission spectra. Aging effect in extremely small semiconductor particles are investigated,...

Superfine MS (M=Cd, Hg, Zn,Pb) with different sizes (average diameter >10nm and average diameter -5nm) are obtained by controlling precipitation. The size of particles are measured via transmission electron microscopy and X-Ray Scattering at small angle. The optical properties of surfine particles are studied at extreme dilution. Smaller crystallites of about 5nm average diameter show large blue shifts in their absorption and ommission spectra. Aging effect in extremely small semiconductor particles are investigated, also.

本文报道了锌、镉、汞、铅硫化物半导体极超微粒子的制备以及它们的光谱性质,比较了它们的粗、细粒子的吸收光谱和荧光光谱的差异,用量子化粒径效应解释了当超微粒子的粒径减小时出现的能级分裂.同时讨论了上述物质的极超微粒子在老化过程中的行为及其原因.

 
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