1) Ni-Co-P alloy
镍-钴-磷合金
2) Nickel-cobalt-phosphorus alloy
镍钴磷合金
1.
Electroless nickel-cobalt-phosphorus alloy plating on carbon nanotube and its characterization;
碳纳米管上化学镀镍钴磷合金及其表征
3) Ni
镍
1.
Research on Jet Electrodepositing Ni Dendritic Crystal;
喷射电沉积镍枝晶基础工艺研究
2.
A Repid Graphit Furnace Atomic Absorption Spcetrometric Method for the Determination of Aluminum an Nie in Food;
石墨炉原子吸收法快速测定食品中铝和镍
3.
Determination of Co,Cr,Fe,Mn,Mo,Ni,Ti in PTA by DUO-ICP-AES;
DUO-ICP-AES测定精对苯二甲酸中的钴、铬、铁、锰、钼、镍、钛
4) nickel
镍
1.
Analysis of the Uncertainty for the Determination of Trace Nickel in TG6 Titanium Alloy by AAS;
原子吸收光谱法测定TG6钛合金中痕量镍不确定度的分析
2.
Direct Determination of Nickel in Copper-nickel Alloy by Dimethylglyoxime Photometry;
丁二酮肟光度法直接测定铜镍合金中镍
3.
The Current Situation and Prospects of the Process and Technology of Nickel Extraction from Laterite-nickel ore;
从红土镍矿中提取镍的技术研究现状及展望
5) cobalt
镍
1.
Simultaneous Determination of Microamounts of Nickel and Cobalt in Nickel Mineral by First-derivative Spectrophotometry;
用2-(4,5-二甲基-2-噻唑偶氮)-5-二甲氨基苯甲酸作显色剂导数光度法同时测定钴和镍
2.
The nickel electrolyte of low concentration cobalt and solution of richness cobalt can be obtained by purifying nickel electrolyte by solvent extraction with P507.
采用P507溶剂萃取深度净化镍电解液,得到符合镍电解工艺要求的低钴电解液和富钴溶液。
3.
Leaching rate of nickel and copper was more than 99% and leaching rate of cobalt was 87%.
浸出液用铁粉置换法分离铜、黄钠铁矾法除铁、NaF法除钙镁、P204深度除杂、P507分离镍钴,杂质去除率达99。
6) nickle
镍
1.
Research on Castability of Dental Titanium Containing Nickle Based Ceramic Metal Alloys;
牙科含钛镍基烤瓷合金可铸造性研究
2.
Study on the Reaction and Applicatoin of Nickle with Meso Tetra(4 bromophenyl)Porphyrin;
meso-四(4-溴基苯基)卟啉与镍显色反应的研究及应用
3.
Using EDTA as titratant,murexide as indicator,sodium tartrate ammonium fluoride and sodium thiosulfate as masking agent,nickle concentration was determined in ammonic medium.
以EDTA为滴定剂,紫脲酸铵为指示剂,NH4F、酒石酸钾钠、Na2S2O3为掩蔽剂,在氨性介质中测定镍的浓度;在pH值为8。
参考词条
补充资料:定向结晶铝镍钴合金磁体
定向结晶铝镍钴合金磁体
alnic'o magnet with directed grain
d一ngx一angleJ一ng IUn一egu hejlne一tl定向结晶铝镍钻合金磁体(alnieo magnetwith direeted grain)用铝镍钻系合金铸造的具有晶粒择优取向的高性能磁体。铸造铝镍钻磁体的磁结构受其晶体结构的影响。晶体的<1。①为易磁化方向,发展完善的(100>晶体织构(柱状晶)可使磁体获得更好的磁性能。 在商业磁体中,根据定向结晶的完善程度可分为部分晶体取向磁体和完全晶体取向磁体。高剩磁和高矫顽力型铝镍钻合金均可制成定向结晶磁体。由典型的高剩磁合金制成的定向结晶磁体(美国牌号AlnicosDG,中国牌号LNG52)的最大磁能积(BH)。二由等轴晶的32~40kJ/m3提高到柱状晶的52一56 kJ/m3;由典型的高矫顽力型合金制成的定向结晶磁体(Alnicog型,LNGT72)的(BH)、,由等轴晶的25一4okJ/m3提高到柱状晶的65~sokJ/m3。部分晶体取向磁体的磁性能介于等轴晶磁体和完全晶体取向磁体的性能之间。用合金制造定向结晶磁体的工艺与普通铸造磁体工艺的主要差别在于,前者采用一种特殊的铸造工艺。该工艺的特点是,将融熔的合金浇注到定向导热的铸模中,这种铸模设计成周围绝热、端部导热的结构,以确保晶粒沿导热方向生长。此外应当注意的是,当这种柱状晶磁体在磁场热处理、磁化时以及在磁路结构的应用中,均须沿柱状晶长大的方向进行。定向结晶磁体的应用与普通铝镍钻磁体的应用相同(见铭镍钻系永磁合金),只是由于性能提高,使得所用磁体的体积和重量相应减小。 (肖文涛)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。