机构地区:[1]内蒙古科技大学材料与冶金学院,白云鄂博矿多金属资源综合利用重点实验室,内蒙古包头014010 [2]内蒙古自治区新金属材料重点实验室,内蒙古包头014010
出 处:《光谱学与光谱分析》2022年第5期1634-1641,共8页Spectroscopy and Spectral Analysis
基 金:国家自然科学基金项目(51964038);内蒙古自然科学基金项目(2020MS05048);内蒙古自治区科技计划项目(2021GG0438);包头市科技计划项目(2019Z3004-5)资助。
摘 要:高能球磨法是材料制备过程中常用的方法,通过物料在高速运转的过程中进行磨合而产生晶体空位缺陷,实现元素的掺杂,进而发生化学吸附或化学反应,合成产生新的物相,对于后续合成材料的性能有很大影响。钡铁氧体具有良好的磁性能,被用于功能材料制备的诸多领域。采用高能球磨法制备钡铁氧体前驱体,利用XRD,SEM和FTIR检测方法考察不同高能球磨时间下钡铁氧体前驱体物相、微观形貌及官能团的变化规律,并通过红外二阶导数光谱、拟合平滑光谱计算法,定量分析高能球磨过程中物相的变化规律。XRD及SEM检测结果表明,随球磨时间增加,钡铁氧体前驱体各物相的衍射峰宽度变宽,粉末细化,晶格逐渐发生畸变,产生晶体空位缺陷,从而使Ba溶入Fe_(2)O_(3)晶格中生成Ba_(x)Fe_(2-x)O_(3)的固溶体,且产生吸附“团聚”现象;当球磨时间大于40h时,发生“纳米尺寸效应”,生成有磁性的Fe_(3)O_(4)及Ba_(x)Fe_(3-x)O_(4)固溶体。红外光谱分析结果显示,随着球磨时间的增加,BaCO_(3)和α-Fe_(2)O_(3)的特征峰均存在峰强减小、峰位发生明显移动的规律,表明随着球磨时间增加,BaCO_(3)和α-Fe_(2)O_(3)颗粒粒度变小,且发生化学吸附。通过红外光谱的平滑拟合光谱和二阶导数光谱计算可知,随球磨时间的增加,各吸收峰面积均明显减小。相对于球磨0 h,在球磨10,20和40h后,波数473cm^(-1)的Fe—O键振动吸收峰的峰面积分别减少48.84%,65.97%和93.54%;而在波数540cm^(-1)处的Fe—O键吸收峰的峰面积则分别减少37.11%,51.76%和82.85%;同理,在波数856cm^(-1)处的O—C—O键的面内弯曲振动吸收峰的峰面积分别减少30.62%,44.71%和67.10%;在波数1446cm^(-1)处的C—O键不对称伸缩振动峰的峰面积则分别减少0.03%,27.63%和57.90%。从定量分析的角度考察了钡铁氧体前驱体高能球磨过程中物相的变化规律并精准确定反应产物含量变化的百分High energy ball milling method was a common method in the process of material preparation,which produced crystal vacancy defects through the material running with high speed to achieve the doping of elements,so the chemical adsorption or chemical reaction has occurred.New phase formed,and it has a great impact on the performance of subsequent synthetic materials.Barium ferrite has been used in many functional materials because of its good magnetic properties.In the paper,barium ferrite precursor was prepared by the high energy ball mill method.Using XRD,SEM and FTIR methods,the changes in phase,microstructure and functional groups of barium ferrite precursor with different high energy ball milling times were investigated.By the second derivative infrared spectroscopy and smooth fitting calculation method,the phase changes were quantitatively analyzed in the process of high-energy ball mill of materiel.XRD and SEM results show that with the increase of ball milling time,the diffraction peak width of each phase of the barium ferrite precursor becomes wider,the powder is refined,the crystal lattice is gradually distorted,and crystal vacancy defects are produced,so that Ba dissolves into the Fe_(2)O_(3)lattice to produce the solid solution of Ba_(x)Fe_(2-x)O_(3),and the adsorption“agglomeration”is produced phenomenon.When the milling time was longer than 40 h,the“nano-size effect”occurred,and magnetic Fe_(2)O_(3) and Ba_(x)Fe_(3-x)O_(4)solid solutions were generated.The results of infrared spectrum analysis showed that the characteristic peaks of BaCO_(3) andα-Fe_(2)O_(3)decreased and shifted significantly with the increase of ball milling time,indicating that the particle size of decreased and chemical reactions occurred with the increase of ball milling time.The smooth fitting spectrum and the second derivative spectrum of the infrared spectrum showed that the area of each absorption peak decreased obviously with the increase of the milling time.Compared with that of ball milling under 0 h,after ball mill
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