用低温燃烧合成法合成了铬酸镧纳米粉体。
Nano-powder of lanthanum chromites were synthesized by low-temperature combustion method.
锶盐纳米粉体是一种重要的工业固体材料。
Nanometer powder of strontium salt is a kind of important industrial solid materials.
液相化学法是制备纳米粉体材料的常用方法。
Liquid chemical method is widely used to synthesize nano powders.
综述了激光法制备纳米粉体的应用研究现状。
The present application and study situation of laser technique on the synthesis of nanopowders are reviewed.
液相沉淀法是一种合成纳米粉体最为普遍的方法。
Liquid precipitation method is one of the most popular methods of synthesis nanometer powders.
介绍了纳米粉体的团聚、分散机理及其分散方法。
The congregation mechanism, dispersion mechanism and dispersion method of nanoparticle are introduced.
对液相法合成钽铌酸银钠的纳米粉体进行了研究。
Nano-sized silver sodium niobate tantalate was studied in this paper using wet-chemical method.
最后对高纯碳酸锶纳米粉体的制备技术进行了综述。
Methods of preparing nanometer strontium carbonate with high purity are also reviewed.
钼—氟复合掺杂对纳米粉体的相变温度有明显的降低。
The phase transition temperature of VO2 powder is decreased remarkably by multi-doping of Molybdenum-Fluorine.
这是直接水合凝胶的热分解处理,造成罚款和纳米粉体。
This hydrous gel is directly decomposed by thermal treatment, resulting in fine and nanoscale powders.
纳米粉体的易团聚性是纳米印染助剂开发以及应用的瓶颈。
Nanometer powders are prone to conglomerate, and it is the bottleneck in the development and application of the nanometer auxiliaries for dyeing and printing.
本研究采用以有机醇为溶剂的溶剂热法制备ito纳米粉体。
In the paper, the various preparation methods of ITO nano-powders are introduced and the advantages and disadvantages of them are compared.
二氧化锆纳米粉体是制造高科技氧化锆系陶瓷的重要原材料。
Nanopowders of zirconia are the important feedstock of production of the high tech ceramics of the zirconia system.
分析了团聚体的成因,并介绍了制备无团聚纳米粉体的几种有效方法。
The causes of agglomeration are analyzed, and several effective methods for preparation of free-agglomeration nanometer powders are described.
着重分析了湿化学合成纳米粉体工艺中硬团聚现象产生的原因和消除方法。
Emphasis was given to the agglomeration of grains during wet chemical processes. Moreover, the promising future of the development of nanometer crystalline ceramics was also discussed.
目的探讨并比较水蒸气蒸馏提取温莪术粗粉和微纳米粉体挥发油的最佳工艺。
Objective In this paper the best extraction method by water vapour from Curcuma wenyujin Y.
作为对比,同时进行了氧化钛纳米粉体在烧结过程中相变及微结构变化的研究。
The characteristics of phase transformation and microstructure of nano titanium oxide powders during plasma spraying were discussed.
采用FT-IR和高分辨透射电镜对改性后的纳米粉体进行结构和形貌的表征。
The structure and polymorphy of the particle modified are characterized by FT-IR and HRTEM.
一种制备纳米粉体材料新方法,最适用于碳化物、氮化物及部分金属粉体的制备。
The new nano powder material preparing process of the present invention is suitable for preparing carbide, nitride and particle metal powder.
阐述了采用静电纺丝和熔体纺丝法制备含纳米粉体功能性纤维的方法及其研究现状。
The methods and developments of fabricating functional fibers containing nanoparticles by electrospinning and melt spinning were reviewed.
研究了不同声场作用下,溶胶-凝胶制备氧化锆纳米粉体过程中凝胶的形成及性状。
The effect of sonic field on ZrO_3 gel made by sol-gel method is studied.
此后,我们以微生物法合成的磷酸钛为前驱体合成具有介孔结构的磷酸钛锂纳米粉体。
After that, we synthesized mesoporous nano-powder of titanium phosphate lithium using the pre-synthesized titanium phosphate as the precursor.
本项研究是“河南卢氏县钾长石制取碳酸钾和硅酸钙纳米粉体实验研究”项目的一部分。
This research is a part of the project of the integrative research of distillingpotassium from potassium feldspar ore of Lushi county, Henan Province.
介绍了纳米二氧化钛、纳米氧化锌、纳米碳酸钙和纳米镍粉几种纳米粉体材料的生产现状。
This paper introduces the current situation of several nano-powder material in commercials production , including nano - TiO2 , nano - ZnO, nano - CaCO3 , nano - Ni powder.
对近年来有关铁电纳米粉体、纳米复合材料、以及纳米陶瓷的制备,结构和性能进行了介绍。
The preparation, structure and properties of ferroelectric nanometer sized powders, nanocomposites, and nanoceramics were introduced.
先进的纳米研磨分散技术---能够有效分散纳米材料并阻止纳米粉体由于表面积过大而团聚。
Advanced Nano-grinding and dispersion technology -----it could scatter the Nano material perfectly to prevent the big surface area from reuniting .
实验结果表明:硬脂酸溶胶凝胶法制备纳米粉体时,配合物溶胶的干燥脱水是不可缺少的一步。
The dehydrated mechanism of complex sol was investigated. The experimental results showed that it was necessary for complex sol to be dehydrated in order to obtain nanometer sized LaCoO3 powders.
用伪半固态触变成形技术能够成形陶瓷基复合材料,成形温度大大低于高熔点相纳米粉体熔化温度。
The ceramics matrix composites can be formed by pseudo-semi-solid thixoforming and the forming temperature was much lower than the melting temperature of the high-melting phase-nano-powder.
用伪半固态触变成形技术能够成形陶瓷基复合材料,成形温度大大低于高熔点相纳米粉体熔化温度。
The ceramics matrix composites can be formed by pseudo-semi-solid thixoforming and the forming temperature was much lower than the melting temperature of the high-melting phase-nano-powder.
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