低铁磁共振线宽BaFe_(12)O_(19)六角铁氧体的制备及其性能

本研究通过磁场成型技术制备高取向度、高剩磁比的BaFe_(12)O_(19)六角铁氧体;研究助烧剂对BaFe_(12)O_(19)六角铁氧体剩磁比、矫顽力、气孔率及铁磁共振线宽的影响;通过铁磁共振线宽测试,分析各向异性致宽、气孔致宽对铁磁共振线宽的贡献。测试结果表明,样品的最优剩磁比为0.87,铁磁共振线宽为220Oe。分析结果表明,铁磁共振线宽主要来源于气孔致宽,且磁场成型技术和助烧剂都有利于降低材料的铁磁共振线宽。

The Effect of Condensation on the Morphology and Magnetic Properties of Modified Barium Hexaferrite(BaFe_(12)O_(19))

We present a comparison for the effect of condensation on the morphology and magnetic prop erties of oleic acid modified BaFe_(12)O_(19) nanoparticles.Two different samples of BaFe_(12)O_(19) nanoparticles were synthesized by dehydration(Z1) and rotary evaporation(Z2) method,respectively.Oleic acid was used as the surface modification agent to observe the morphological and magnetic changes.The nanoparticles were analyzed by XRD,FTIR,TGA,SEM,and VSM techniques for structural and physicochemical characteris tics.Crystallographic analysis reveals the phase as hexaferrite and the average crystallite size of Z1 and Z2 is 21±3 nm and 17±2 nm,respectively.Rotary evaporator accelerates the condensation process in viscous gel(Z2).Due to the use of rotary evaporator,the coating with oleic acid for Z2 product has been accomplished very well,as compared with Z1.As a result,saturation magnetization of Z2 sample is much lower than that of Z1 sample.

Large magnetoelectric effect in BaFe_(12)O_(19)-(Ba_(0.85)Ca_(0.15))(Zr_(0.1)Ti_(0.9))O_(3)particulate composite

Multiferroic composites with a large magnetoelectric response are gaining attractive interests for the design of magnetoelectric(ME)functional devices.In this work,the particulate ME composites(Ba_(0.85)Ca_(0.15))(Zr_(0.1)Ti_(0.9))O_(3)-xBaFe_(12)O_(19)(x=0,0.1,0.2,0.3,0.4 and 1)were prepared,and their structural,dielectric,magnetic,ferroelectric,piezoelectric properties and magnetoelectric coupling were systematically investigated.The composites consisted of only two chemically separated phases with well-bonded interface.Dielectric and impedance analyses indicated the co-contribution of grain and grain boundary to polarization.Well-saturated ferroelectric and magnetic hysteresis loops demonstrated multiferroic nature.ME response was investigated elaborately by employing magnetically induced polarization,together with measuring ME voltage coefficient and magnetodielectric value.Specifically,a large ME coefficient of 26.78 mV/cm·Oe was achieved for x=0.3,which is higher than that in single-phase BaFe_(12)O_(19)and its coupled composites.

石墨烯与铁氧体BaFe_(12)O_(19)复合物的制备及其吸波性能的研究

该文使用高锰酸钾浓硫酸制备氧化石墨,并通过共碱还原-沉淀的方法制备石墨烯(rGO)与BaFe_(12)O_(19)络合物,脱水后形成rGO/BaFe_(12)O_(19)复合吸波材料。结果表明,rGO片层上稳定嫁接了纳米铁氧体BaFe_(12)O_(19),利用铁氧体BaFe_(12)O_(19)磁损耗和rGO介电损耗之间的协同作用,rGO/BaFe_(12)O_(19)纳米复合材料表现出了高效的吸波性能。电磁参数测试表明,当rGO含量为16.7%时,在3 mm厚度下,其损耗值能达到-43.3 dB,在3.6 GHz~17.2 GHz的波段内,样品的损耗值几乎全部低于-10.0 dB。通过添加不同剂量的rGO与铁氧体BaFe_(12)O_(19)来探究,找到rGO与BaFe_(12)O_(19)最佳的添加比例。该制备方法由于具有简单易操作以及稳定高效的吸波性能,为应用rGO/BaFe_(12)O_(19)纳米复合材料提供了广阔的前景。

共沉淀法制备超细BaFe_(12)O_(19)纳米粒子及其性能

BaFe_(12)O_(19)纳米粒子具有高矫顽力、高饱和磁化强度、分散性好的特点,超细的BaFe_(12)O_(19)纳米粒子在磁性器件、微波吸收、生物医学、磁记录等领域具有广阔应用前景。然而,制备超细的高性能BaFe_(12)O_(19)纳米粒子仍然是该领域的难点。提出一种简便的共沉淀法制备M型BaFe_(12)O_(19)纳米粒子,成功获得高性能、分散性好的超细BaFe_(12)O_(19)纳米粒子,同时研究了制备工艺对粒子结构和性能的影响。结果表明:pH对BaFe_(12)O_(19)纳米粒子的成分、结晶度、形貌特征及磁性能影响显著,当pH为9时,颗粒结晶度高、分散性较好;随前驱体比例的升高,BaFe_(12)O_(19)纳米粒子的结晶度、形貌特征及磁性能随之发生变化,当前驱体比例为1∶12时,颗粒结晶度较高、磁性能高;在60℃的沉淀温度下沉淀反应1.5 h,当搅拌速率提升到600 r/min时,可获得高结晶度、矫顽力为5072 Oe、饱和磁化强度高达70 emu/g、平均粒径仅为33 nm的超细BaFe_(12)O_(19)纳米粒子。

制备工艺对纳米钡铁氧体生成过程的影响

应用溶胶-凝胶技术制备纳米钡铁氧体,研究不同的制备工艺对钡铁氧体生成过程的影响。研究结果表明:在工艺中,500℃预处理5h后的试样需经水洗除杂工艺才可以在Fe/Ba=11.2、900℃退火4h的条件下制得高纯度BaFe12O19(简称BaM)磁性材料,其磁性能为:比饱和磁化强度Ms=68.6A·m2·kg-1,剩余磁化强度Mr=25.6A·m2·kg-1,矫顽力Hci=29.95×103A/m;而工艺中,由于未引入杂质Na+,所以简化了工艺步骤,即不需水洗工艺,但需适当地延长干胶预处理时间(>5h)和退火时间,即可在Fe/Ba=11.4,900℃退火6h的条件下,制得单相BaM磁性材料,其比饱和磁化强度Ms=70.12A·m2·kg-1,矫顽力Hci=31.26×103A/m。

共沉淀法制备钡铁氧体

为了改善传统工艺呈胶状的共沉淀物难以过滤、清洗、干燥的不足,利用Fe3O4的磁性,改进了共沉淀法制备钡铁氧体前驱粉的工艺,节省了时间和成本,并且降低了高温固相反应温度;同时研究了高温固相反应中助熔剂对钡铁氧体粒子粒径、形貌及磁性能的影响,初步确定了助熔剂NaCl的添加量.

M型铁氧体结晶度分析及其对磁性能的影响

本文以M型钡铁氧体BaFe_(12)O_(19)为研究对象,以Jade软件为拟合工具,以BaFe_(12)O_(19)的结晶度计算和探究其合成因素/方法、结晶度及磁性间的内在联系为主要研究目的。采用化学共沉淀法及二次化学共沉淀法制备BaFe_(12)O_(19),对BaFe_(12)O_(19)的XRD谱实现了全谱分峰拟合,通过拟合峰面积计算了化学共沉淀法不同摩尔比n(Fe)/n(Ba)和二次化学共沉淀法不同焙烧温度制备的BaFe_(12)O_(19)的结晶度。结果表明:一定范围内降低n(Fe)/n(Ba)、升高焙烧温度或改变合成方法,可调控BaFe_(12)O_(19)的结晶度,进而引起其磁性参数M_(s)和H_(c)的提高。且结晶度不是M_(s)和H_(c)的单一影响因素,其与片状颗粒径向尺寸均对M_(s)和H_(c)影响明显。

二次化学共沉淀法制备片状钡铁氧体的形成历程及磁性能研究

采用二次化学共沉淀法制备出六角或近六角片状BaFe_(12)O_(19),其颗粒径向尺寸和径厚比分别为0.4-2μm和4-20。通过XRD、FTIR、TG/DTA及SEM/EDS分析技术研究了片状BaFe_(12)O_(19)的形成历程。结果表明:前驱体为非晶态BaCO_3、低结晶态Fe(OH)_3和晶态α-Fe_2O_3包覆原料BaFe_(12)O_(19)复合物;前驱体在焙烧过程中经过Fe(OH)_3脱水、BaCO_3分解反应、中间相α-Fe_2O_3和BaO反应得到终产物BaFe_(12)O_(19)。基于形成历程,六角片状BaFe_(12)O_(19)较原料BaFe_(12)O_(19)表现出显著提高的颗粒径向尺寸和径厚比、较高的纯度和略低的结晶有序程度,进而表现出明显提高的矫顽力、略低的饱和磁化强度和剩余磁化强度。