化学-电化学协同反应制备电子级超细铜粉的研究  被引量：2

作　　者：方亚超 杨聪庆 黄惠[1,2] 潘明熙 何亚鹏 陈步明 郭忠诚[1] Fang Yachao;Yang Congqing;Huang Hui;Pan Mingxi;He Yapeng;Chen Buming;Guo Zhongcheng(College of Metallurgy and Energy Engineering,Kunming University of Science and Technology,Kunming 650093,China;Kunming Gaoju Technology Co.,Ltd,Kunming 650106,China)

机构地区：[1]昆明理工大学冶金与能源工程学院,云南昆明650093 [2]昆明高聚科技有限公司,云南昆明650106

出　　处：《稀有金属材料与工程》2023年第1期300-307,共8页Rare Metal Materials and Engineering

基　　金：国家自然科学基金(52064028);云南省基础研究计划重点项目(202101AS070013);云南省中央引导地方专项(202107AC110009)。

摘　　要：中国电解法生产铜粉粒径分布一般在30μm以上,且所得铜粉大部分集中在附加值低的中低端领域,无法满足电子信息领域的更高要求。本研究采用化学-电化学协同反应制备电子级超细铜粉,探讨了化学反应时间、电流密度和阴极成分等对铜粉的粒度、形貌以及结构等影响。结果表明:随着化学反应时间延长,铜粉粒度逐渐增大,树枝状逐渐密实;随着电流密度增加,铜粉粒度逐渐减小,呈分散较好的树枝状。确定较佳工艺条件为:化学反应时间为1 min,电流密度为300 A·m^(-2),Al阴极。在此工艺条件下可得到平均粒度为6.44μm,松装密度0.828 g·cm^(-3),分散性较好的树枝状超细铜粉。也进一步探明了化学-电化学的协同反应机制是置换反应预先生成晶核,电化学沉积在晶核上原位生长形成树枝状晶体。The particle size distribution of copper powder produced by the electrolysis method in china is generally above 30μm,and most of the copper powder obtained is concentrated in the low-end fields with low added value,which cannot meet the higher requirements of the electronic information field.This study used chemical-electrochemical synergistic reaction to prepare electronic grade ultrafine copper powder,and discussed the influence of chemical reaction time,current density and cathode composition on the particle size,morphology and structure of copper powder.The results show that with the extension of the chemical reaction time,the particle size of the copper powder gradually increases,and the dendritic shape gradually becomes dense.With the increase of the current density,the particle size gradually decreases,showing a well-dispersed dendritic shape.The optimal process conditions are determined as follows:the chemical reaction time is 1 min,the current density is 300 A·m^(-2),and the cathode plate is Al.Under this process,a dendritic ultrafine copper powder with an average particle size of 6.44μm,a bulk density of 0.828 g·cm^(-3) and good dispersibility can be obtained.It is further proved that the chemical-electrochemical synergistic reaction mechanism is that the substitution reaction generates crystal nuclei in advance,and electrochemical deposition grows in situ on the crystal nucleus to form dendritic crystals.

关 键 词：电解铜粉 置换反应 超细铜粉 树枝状 化学-电化学协同机制 

分 类 号：TG146.11[一般工业技术—材料科学与工程]