1)  Ni-Fe
Ni-Fe
1.
Studies on Technology and Basic Mechanism of Plating Ni-FeNi-Fe-Cr Alloy Foil and Ni-Cr Alloy;
Ni-FeNi-Fe-Cr合金箔及Ni-Cr合金电沉积工艺和基础理论研究
2.
Goat with a thin layer of metal, for example Ni-Fe Ni-P and Ni, by electroplating and chemical plating on the matrix copper T2 and silicon steel DW310-35 to prepare composite materials.
以铜T2和硅钢DW310-35作为基体,采用电镀和化学镀手段,镀覆Ni-Fe、Ni-P和Ni,并进行适当热处理,其目的是获得在高频和低频下均有良好屏蔽效能的复合材料。
2)  Ni/Fe
镍/铁
1.
DEGRADATION OF PCE USING Ni/Fe AND Cu/Fe BIMETAL SYSTEMS;
镍/铁和铜/铁双金属降解四氯乙烯的研究
3)  Ni/Fe
Ni/Fe
4)  nanoscale Ni/Fe
纳米Ni/Fe
1.
Nanoscale iron and nanoscale Ni/Fe bimetal were used to dechlorinate carbon tetrachloride (CT).
反应进行 1h ,纳米Ni/Fe ,纳米Fe和铸铁屑的脱氯率分别为 98%,84 %和 6 5 %;纳米Ni/Fe和纳米Fe产生的中间产物三氯甲烷 (TCM)最大量分别为 2 5 %和 5 9%,随之TCM又逐渐下降 ,尤其是纳米Ni/Fe在很短时间内 ,将TCM快速完全脱氯且产生 2 7%甲烷 (CH4)和 1 5 %二氯甲烷 (DCM) ,并对DCM没有明显的脱氯作用。
2.
Nanoscale Ni/Fe Were prepared adopting chemical precipitation technique, and studies on catalytic dechlorination of Polychlorinated Biphenyls using the prepared nanoscale Ni/Fe were carried out in this paper.
本文采用化学沉淀法制备纳米Ni/Fe双金属颗粒,利用制备的纳米Ni/Fe对PCBs进行还原降解研究。
5)  Ni/Fe catalysts
Ni/Fe催化剂
1.
Catalytic decomposition of unsymmetrical dimethylhydrazine(UDMH) in wastewater on Ni/Fe catalysts was studied, and the effects of the content of the catalysts, pH values of the system and the initial concentration of UDMH were investigated.
研究了Ni/Fe催化剂对废水中偏二甲肼臭氧化分解的催化作用,考察了组分含量、体系的pH值和偏二甲肼初始浓度对催化反应的影响。
6)  Ni-Fe-P alloy
Ni-Fe-P合金
1.
Ni-Fe-P alloy has been electrolessly deposited from a alkaline bath containing boric acid as a buffer agent and sodium citrate as a complexing agent.
以硼酸为缓冲剂,柠檬酸钠为络合剂,在弱碱性体系中化学沉积Ni-Fe-P合金。
参考词条
补充资料:W-Ni-Fe alloy
分子式:
CAS号:

性质:一类重要的钨基重合金。它们是在钨中添加镍、铁而组成的合金,以及在这个基础上再加入其他金属元素的合金。加入的镍铁比一般为7:3或1:1。这类合金应用极广,已经成为用量最大的主要钨基重合金。其特点是烧结密度高,强度与塑性均较好,有一定的铁磁性。合金作为一般应用,如配重、平衡锤、防辐射屏蔽装置等,都直接使用烧结合金;但如作为要求高机械性能的应用时,合金则需变形加工及热处理以达到强化。

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