废锌锰电池制备锰锌铁氧体共沉淀粉料研究  被引量:3

STUDY ON THE PREPARTION OF MnZn FERRITE CO-PRECIPITATION POWDER WITH Zn-Mn WASTE DRY BATTERY

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作  者:彭长宏[1] 慕思国[1] 白本帅[1] 黄虹[1] 

机构地区:[1]中南大学冶金科学与工程学院,湖南长沙410083

出  处:《环境工程》2005年第5期80-82,共3页Environmental Engineering

摘  要:以废锌锰电池为主要原料,辅以少量的菱锰矿和废铁屑,经同时浸出、初步除杂、深度净化和共沉淀等过程,制备出纯度高、配比接近PC30铁氧体配方且混合均匀的共沉淀粉料.实验结果表明:在浸出温度80~95℃、搅拌速度120~180r/min、酸用量为理论用量的1.2~1.4倍和浸出时间3.0~4.0 h的条件下,铁、锰和锌的浸出率分别为92.02%、96.14%和98.34%;共沉淀粉料中铁、锰和锌的平均含量分别为41.41%、13.92%和4.49%,推算出Fe:Zn:Mn=69.2:23.3:7.5.完全符合PC30对粉料的要求.本研究既为高档锰锌软磁铁氧体的制备创造了很好的前提条件,同时对废锌锰电池的高价值资源化利用具有重要的现实意义.Mn-Zn ferrite co-precipitation powder was prepared by the reaction of simultaneous leaching, deep purification and co-precipitation with waste Zn-Mn dry battery, waste scrap iron and pyrolusite as raw materials.The results indicate that the leaching rates of Mn,Zn and Fe were 92.02%,96.14% and 98.34%, respectively at the condition of temperature 80~95℃,the rotate rate 120~180r/min, and with the amount of H_2SO_4 being 1.2~1.4 times of its theoretical consumption and the leaching time 3.0~4.0 h.The average contents of main elements in the co-precipitation powder are Fe 41.41%,Mn 13.92% and Zn 4.49%,Fe∶Zn∶Mn=69.2∶23.3∶7.5,which can meet fully the demands on the preparation of PC30 ferrite.This study intends to provide a theoretical basis for the manufacture process of Mn-Zn ferrite powder; it is also having the important practical significance to the utilization of waste Zn-Mn dry battery.

关 键 词:废锌锰电池 锰锌铁氧体共沉淀粉料 资源化 锰锌铁氧体 锌锰电池 共沉淀 粉料 制备 锰锌软磁铁氧体 同时浸出 

分 类 号:X76[环境科学与工程—环境工程]

 

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