ELECTRODEPOSITION OF NICKEL-COBALT ALLOYS FROM SULFATE ACID BATHS

机译：硫酸盐镍电沉积镍钴合金

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In this work, nickel-cobalt electrodeposition under galvanostatic conditions was investigated. Ni-Co alloy was electrowon from an acid sulphate bath containing 40 g/L Ni and2-8 g/L Co.. The effect of electrolyte composition, current density, temperature, solution pH and presence of buffers such as H_3BO_3 and (NH_4)_2SO_4 on Co content of the binary alloy has been investigated. In particular, current densities ranging from 180 to 400 A/m~2 and temperatures ranging from 27 to 60℃ were tested. The composition of Ni-Co alloys may be diversified through the selection of process parameters. The experiments show that the highest cobalt content of the alloy is reached by using a buffer free electrolyte without solution pH control. Though, in these conditions, the most homogeneous, fine and regular deposit morphology is obtained, energy requirements are the highest in tests lasting just two hours.

机译：在这项工作中，研究了在恒电流条件下进行镍钴电沉积。从包含40 g / L Ni和2-8 g / L Co.的硫酸盐浴中电解获得Ni-Co合金。电解质组成，电流密度，温度，溶液pH以及缓冲液（例如H_3BO_3和（NH_4））的存在的影响研究了_2SO_4对二元合金中Co含量的影响。特别地，测试了电流密度在180至400 A / m〜2的范围内以及温度在27至60℃的温度范围内。通过选择工艺参数可以使Ni-Co合金的成分多样化。实验表明，在不控制溶液pH的情况下，使用无缓冲电解质可达到合金的最高钴含量。尽管在这些条件下，可以获得最均匀，精细和规则的沉积形态，但在仅需两个小时的测试中，能量需求最高。

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《5th International Symposium on HYDROMETALLURGY 2003 Vol.2: Electrometallurgy and Environmental Hydrometallurgy; Aug 24-27, 2003; Vancouver BC Canada》|2003年|p.1289-1297|共9页
会议地点 Vancouver(CA);Vancouver(CA);Vancouver(CA);Vancouver(CA);Vancouver(CA)
作者
Carla Lupi; Daniela Pilone;
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Dip. ICMMPM -Universita degli Studi di Roma "La Sapienza" Via Eudossiana 18, 00184 Roma, Italy;

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正文语种 eng
中图分类 Tf;
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2. 钴含量对电沉积镍-钴合金电沉积机理和力学性能的影响 [J] . M.ZAMANI, A.AMADEH, S.M.LARI BAGHAL 中国有色金属学报：英文版 . 2016,第002期
3. The influence of sulfate ions on the electrodeposition of Ni-Sn alloys from acidic chloride-gluconate baths [J] . Ewa Rudnik Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2014,第Null期

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5. Electrodeposition and characterization of zinc–nickel–iron alloy from sulfate bath: influence of plating bath temperature [J] . M. M. Abou-Krisha, F. H. Assaf, S. A. El-Naby Journal of Solid State Electrochemistry . 2009,第6期

机译：硫酸盐浴中锌镍铁合金的电沉积和表征：镀浴温度的影响
6. ELECTRODEPOSITION OF NICKEL-COBALT ALLOYS FROM SULFATE ACID BATHS [C] . Carla Lupi, Daniela Pilone International symposium on hydrometallurgy . 2003

机译：硫酸酸浴镍 - 钴合金电沉积
7. Electrodeposition of nickel and nickel-cobalt alloy in low gravity. [D] . Lee, Jun-Ho. 1994

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8. Influence of Bath Hydrodynamics on the Micromechanical Properties of Electrodeposited Nickel-Cobalt Alloys [O] . Isman Khazi, Ulrich Mescheder, Jürgen Wilde 2021

机译：浴液流体动力学对电沉积镍 - 钴合金微机械性能的影响
9. Coated Steel Sheet. Present Situation and Future Prospect. Electrodeposition Mechanism of Zinc and Zinc Alloys from Sulfate Baths. [O] . Hisaaki FUKUSHIMA, Hiroaki NAKANO 2001

机译：涂层钢板。现状与未来前景。硫酸盐浴锌和锌合金的电沉积机理。

ELECTRODEPOSITION OF NICKEL-COBALT ALLOYS FROM SULFATE ACID BATHS

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