纳米金属粉
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用热分析法研究了纳米金属粉(Ni、Cu和Al)对高氯酸铵(AP)以及AP/HTPB推进剂热分解的催化性能。
The decomposition behavior of ammonium perchlorate ( AP ) and AP / HTPB propellant has been investigated in the presence of nanometer metal powders by DTA .
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微米级金属粉对AP高温分解反应的催化作用明显小于纳米金属粉。
The catalytic effects of micron meter metal powders on the higher temperature decomposition of AP are less than that of nanometer metal powders .
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液相制备纳米金属粉的粒度及形貌控制研究进展
Research Progress in Size and Shape Control of Metal Nanoparticles Fabricated in Liquid Phase
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纳米金属粉在润滑中的应用
Application of Nano Metal Powder on Lubricating Oil
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纳米金属粉体材料的氢等离子体制备机理及其润滑减摩特性研究
Research on Mechanism of Preparing Nano-metal Powder Materials by Hydrogen-plasma Method and Lubrication Properties of Powder
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并总结了液相制备纳米金属粉的粒度和形貌控制作用机理。
At the same time , the mechanisms of size and shape control of metal nanoparticles are also summarized .
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主要从纳米金属粉的粒度可控制备、形貌可控制备和复合结构纳米金属粉的制备3方面阐述了液相制备纳米金属粉的粒度和形貌控制研究现状;
In this article , the fabrications of metal nanoparticles in liquid phase is reviewed , which include three aspects that are size control , shape control and composite-structure nanoparticle fabrication .
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简要介绍了纳米金属粉的奇异特性,概述了对纳米金属粉进行分散的方法,分析了纳米金属粉在粉末冶金工业中应用的可行性与应用前景。
In this paper , the bizarre features of metal nano-particles are briefly described , the dispersing techniques for nano-particles introduced , and the potential applications of metal nano-materials in power metallurgy analyzed .
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用Ni(OH)2浆化氢还原法制备纳米金属镍粉的反应机制
Preparation of nanometer-sized nickel powders by hydrothermal hydrogen reduction of ni ( oh ) _2 slurry
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纳米过渡金属粉对AP热分解的催化作用
Catalysis of Nanometer Transition Metals on the Thermal Decomposition of Ammonium Perchlorate
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微米级金属粉对AP的催化作用明显小于纳米级金属粉,微米铜粉和镍粉也有一定的催化作用。同时,纳米金属粉对推进剂样品有较好的催化活性。
The catalytic characteristics of micrometer metal powder were lower than that of nanometer ones although micrometer Cu and Ni had some catalytic characteristics .
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结果表明:制得的纳米金属镍粉纯度高,粒径分布窄,平均粒径为35nm,粒径范围在30~40nm。
The experimental results showed that the samples with average size about 35 nm , the range of particle size is 30 ~ 40 nm , and the purity of nano Ni powder is high .
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微纳米片状金属粉制备设备
The Producing Equipment of Micrometer and Nanometer Sheet Metal Powder
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纳米级金属粉改善润滑油摩擦学性能
Tribological performance of lubricating oil with nano metal powders additive
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纳米金属氧化物粉体的制备方法及其应用
The Preparation and Applications of Metal Oxides Nano - powder
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纳米金属钨粉制备方法的研究进展
Studies Progress on Preparation of Tungsten Nano - powder
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纳米级金属粉对润滑油摩擦磨损性能的影响
Effect of Nano Grade Copper Powder on wear and Friction Properties of Lubricant
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综述了目前国内外制备纳米金属钨粉的几种方法。
The studies progress on the preparation of tungsten nano-powder was introduced in recent years .
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纳米金属氧化物粉体爆轰合成
Detonation synthesis for nano-metallic oxide powders
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结果表明,加有纳米级金属粉的润滑油表现出优良的抗磨性能,其中尤以铋粉最优。
The result showed that the lubricating oil added metal powder has excellent antiwear property , especially Bi powder .
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纳米金属钨粉和镍粉的液相控制合成以及纳米钴&镍合金的制备
Controlled Synthesis and Characterization of Tungsten and Nickel Nanoparticles , and Studies on Preparation of Co-Ni Alloy Nanoparticles under Wet Chemical Process
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测试结果表明,纳米Al+Sn金属粉可在较宽的载荷范围内明显改善润滑油的极压抗磨性能。
The test results show that the AW and EP performance of base oil can be obviously improved in a wild load range by adding Al + Sn nanoparticles .
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通过该方法还合成了溴化十六烷基三甲铵(HTAB)包敷的晶粒尺寸为1~5纳米的金属钌粉体。
Ru powders composed of15 nm particles capped by hexadecyltrimethylammonium bromide ( HTAB ) were also synthesized by this method .
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推进剂用纳米膜包覆金属Al粉研究纳米复合滤膜
Study on the Coating Technique of Al with Nanometer Film Nanocomposite separation membrane
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纳米涂料用金属氧化物粉体材料的开发
Development and applications of metal oxide nano - powder material in nano coatings
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通过实验研究,确定了制备纳米金属和复合金属粉的最佳合成工艺条件。
The optimal conditions to prepare nanometer metal and composite metal powders were also studied .
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综述了纳米材料(纳米金属粉,纳米铁氧体及其复合物)作为吸波材料损耗介质的国内外最新研究进展及发展趋势。
Nanometer agents ( including nanometer metal power , nanometer iron oxide and its composite ) as loss substance in radar absorbing materials are reviewed .
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主要论述了广泛应用于含能材料中的纳米高能氧化剂、纳米高能金属粉及纳米催化剂等。
And those nanometer materials widely applied in energetic materials were discussed , such as nanometer high energetic oxidant , nanometer high energetic metal powder and nanometer catalysts .