非晶态合金是一种新型催化剂。
讨论了非晶态合金的最新进展。
介绍了非晶态合金研究和应用开发概况。
Some researches and developments of amorphous alloys in China are reviewed.
综述了非晶态合金的制备方法与表征手段。
This review describes methods of preparation and characterization of amorphous alloy catalyst.
因此,电镀非晶态合金已引起人们的极大关注。
Therefore, amorphous alloy plating has aroused people's attention.
在空气中长期放置,非晶态合金层仍保持光亮性。
The amorphous alloy coating remained bright property which was placed in air over a long period of time.
在射频场中非晶态合金的穆斯堡尔谱显示崩塌效应。
The Mbssbauer spectrum of amorphous alloys in radio frequency field shows a collapse effect.
本文介绍了非晶态合金的特点、制造技术和应用领域。
The characteristics, processing technology and application areas of amorphous alloy are introduced in this paper.
利用直流高压电场处理非晶态合金使之纳米化的研究。
An experimental study on the Nanometerization of non-crystallized alloys by means of applying d.
对非晶态合金用作新型催化材料的可能性进行了分析。
The possibility using as novel catalytic material has been analyzed.
另外,论文中进行了非晶态合金的原子结构与物理性质的研究。
Besides, the atomic structure and physical properties of amorphous alloy had also been investigated in the study.
用直流共溅射方法制备了富稀土-过渡族金属非晶态合金薄膜。
The rich rare earth transition metal amorphous films were prepared by DC double target co sputtering method.
对高频弱磁场激励下的非晶态合金带的应力磁效应进行了研究。
The stress magnetic effect of amorphous alloy ribbon excited by high frequency and weak magnetic field is investigated.
这种转化膜很可能是由有一定孔隙的非晶态合金单宁酸膜层构成。
The conversion film is probably constituted of amorphous and pored alloying tannate chelate.
本文研究了超高强的非晶态合金带增强高性能聚合物的复合材料。
The superhigh strength amorphous metal ribbon reinforced higher character polymer matrix composites was studied.
由这个公式和临界冷却速度还能决定出非晶态合金丝带的最大厚度。
The maximum thickness of amorphous alloy ribbons can also be determined by this formula and the critical cooling rate.
综述了非晶态合金菱面体单元结构模型在理论及应用方面的最新进展。
Recent development of theory and application of the RUSM (rhomb unit structural model) for amorphous alloys are reviewed.
介绍了负载型非晶态合金催化剂制备技术、表征方法和最新应用技术领域。
The progress preparation technology, characterizing means and the application of the amorphous alloy catalysts were introduced.
采用铜模吸铸法,制备出管状非晶态合金Fe36Co36B20Si4Nb4。
Ringy amorphous alloy Fe36Co36B20Si4Nb4 is obtained by the method of copper mould suction casting.
非晶态合金镀层的阳极极化曲线表明,镀层在酸性环境中具有优良的耐腐蚀性能。
The amorphous Fe-W alloy film is observed to have an excellent resistance to corrosion.
本文研究了利用具有近零磁致伸缩系数钴基非晶态合金丝研制的新型磁场传感器。
A new type magnetic sensor using near-zero magnetostriction cobalt-based amorphous wire was studied in the paper.
描述了非晶态合金材料的电磁感应效应并推出反映被测磁场变化的输出电压关系式。
The electromagnetic influence effect of material for amorphous alloy and expression on various magnetic field is presented.
文中讨论了势函数的局域性及关联性对二元非晶态合金中的化学短程序所造成的影响。
Effect of localization and correlation of potential function on chemical short range order in binary amorphous alloys are discussed.
对负载型非晶态合金催化别用于含不饱和基团化合物的加氢性能作了较为详细的阐述。
The possibility of its applications has been investigated and a brief introduction of amorphous alloy catalyst in hydrogenation of unsaturated compounds are proposed.
阐述了淬冷法、化学沉积法、 化学还原浸渍法制备的非晶态合金催化剂的优缺点。
The advantages and disadvantages of the catalysts prepared by rapid quenching method, chemical sediment method, and chemical reduction impregnation method were discussed.
介绍了非晶态合金的制备方法、表征手段以及非晶态合金催化剂在各类加氢反应中的性能。
The preparation methods and the characterization of amorphous alloy catalysts are described in this paper. The catalytic performances of these catalysts for hydrogenation are also reviewed briefly.
所说具有铁磁性的加氢催化剂选自镍系非晶态合金、阮内镍或磁性载体负载的贵金属催化剂。
The ferromagnetic hydrogenating catalyst is selected from non-crystalline nickel alloy, Raney nickel or magnetic carrier loaded noble metal catalyst.
催化剂的乙炔加氢稳定性测试结果表明,聚合物在非晶态合金表面沉积,导致催化剂活性下降。
The results of durability experiments of acetylene hydrogenation showed that the deposit of oligomer on the surface of catalysts leaded to catalysts deactivation.
催化剂的乙炔加氢稳定性测试结果表明,聚合物在非晶态合金表面沉积,导致催化剂活性下降。
The results of durability experiments of acetylene hydrogenation showed that the deposit of oligomer on the surface of catalysts leaded to catalysts deactivation.
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