Electronic Theoretical Study of the Interaction between Rare Earth Elements and Impurities at Grain Boundaries in Steel

The model of dislocations was used to construct the model of grain boundary (GB) with pure rare earths, and rare earth elements and impurities. The influence of the interaction between rare earth elements and impurities on the cohesive properties of 5.3° low angle GB of Fe was investigated by the recursion method. The calculated results of environment sensitive embeding energy( E ESE ) show that the preferential segregation of rare earth elements towards GBs exists. Calculations of bond order integrals (BOI) show that rare earth elements increase the cohesive strength of low angle GB, and impurities such as S, P weaken the intergranular cohesion of the GB. So rare earth element of proper quantity added in steel not only cleanses other harmful impurities off the GBs, but also enhances the intergranular cohesion. This elucidates the action mechanism of rare earth elements in steel from electronic level and offers theoretical evidence for applications of rare earth elements in steels.

Direct microwave leaching conditions of rare earth elements in fluorescent wastes

The luminescent phosphor powder in the fluorescent lamp constitutes 2%of the lamp’s weight.It can be mentioned that fluorescent wastes are a crucial raw material to produce rare earth oxides.In the present study,microwave leaching process was conducted to dissolve rare earth elements yttrium(Y),europium(Eu),and remaining rare earth elements(REEs)present in the phosphor powder of the fluorescent lamp.and the yields were compared.In the microwave leaching process,the effects of the temperature(80-160℃),acid type(hydrochloric acid(HCl),nitric acid(HNO_(3)),sulphuric acid(H_(2)SO_(4))),acid concentration(0.5-6 mol/L),solid to liquid ratio(0.1:10-0.5:10)and reaction time(5-90 min)parameters on leaching efficiencies of varying rare earth elements and calcium were investigated.The highest yield was obtained in the direct microwave leaching of fluorescent waste with the experimental conditions of 6 mol/L HCl,160℃,0.1:10 solid-to-liquid ratio(S:L),and 90 min.Activation energy calculations were made,and kinetic models of the reactions were obtained,and it is observed that Y and Eu dissolution is diffusion-controlled,on the other hand,lanthanum(La),cerium(Ce),and terbium(Tb)were examined to be chemical reaction controlled.Moreover,calcium(Ca)and gadolinium(Gd)seem coherent with the mixed model.Concurrently,mathematical models of all experimental studies are created with the response surface Box-Behnken method and the correlation coefficients of all the models are over 90%.

Electromagnetic wave absorption properties of cobalt-zinc ferrite nanoparticles doped with rare earth elements

Traditional ferrites are of poor electromagnetic wave(EMW) absorption while doping rare earth elements(REEs) can greatly enhance their permeability to improve the EMW loss performance.In this study,Co-Zn ferrite nanoparticles doped with various amounts of REEs(Gd^(3+),Nd^(3+)and Pr^(3+)) were synthesized by a hydrothermal method,and their particle morphology and an EMW absorption performance were characterized by using transmission electron microscopy(TEM) and a Vector network analyzer(VNA).The results show that the initial spherical Co-Zn ferrite nanoparticles present an irregular quadrilateral structure after Gd^(3+)doping,and the average particle size of Co_(0.5)Zn_(0.5-x)Gd_(x)Fe_(2) O_(4) increases from 26 to 50 nm with x increasing from 0 to 0.35.At x of 0.25,the reflectivity absorbance achieves-27.94 dB at 18 GHz with the effective absorption bandwidth(EAB) of 4.08 GHz at a sample thickness of 2.5 mm.When Nd^(3+)doping amount reaches x=0.3,the minimum reflection loss(RL)is-25.63 dB at 18 GHz and EAB is 3.91 GHz.Doping Pr^(3+)(x=0.25) in the sample broadens EAB,and the minimum RL is-16.1 dB at 16.81 GHz and EAB is 7.31 GHz.This study shows that the magnetic moment produced by doping REES can form magnetic domains,which affects the incident EMW and improves the magnetic loss.It is expected that REEs-doped Co-Zn ferrite nanoparticles can be used as efficient electromagnetic shielding materials in aerospace.

Investigation on mechanism of magnetization reversal for nanocrystalline Pr-Fe-B permanent magnets by micromagnetic finite element methods

Magnetization configurations were calculated under various magnetic fields for nanocrystalline Pr-Fe-B permanent magnets by micromagnetic finite element method.According to the configurations during demagnetization process, the mechanism of magnetization reversal was analyzed.For the Pr2Fe14B with 10 nm grains or its composite with 10vol.% α-Fe, the coercivity was determined by nucleation of reversed domain that took place at grain boundaries.However, for Pr2Fe14B with 30 nm grains, coercivity was controlled by pinning of the nucle-ated domain.For Pr2Fe14B/α-Fe with 30vol.% α-Fe, the demagnetization behavior was characterized by continuous reversal of α-Fe moment.

A Review of REE Tracer Method Used in Soil Erosion Studies

Rare earth elements （REEs） have been proved ideal tracers for soil erosion and aggregation. REE tracer method （REETM） used to study soil erosion, as a new technique, has been developed in recent 20 yr. It is able to quantitatively monitor the temporal and spatial variation of erosion intensity, compared with traditional approaches. The applications of REETM in studying of sediment differentiation law, erosion process evolution, determination of sediment sources and sedimentation investigations, and determination of prediction parameters, were reviewed. Some application limitations were summarized.

Investigation on Hard Magnetic Properties of Nanocomposite Permanent Magnets with Precipitate-Typed Microstructure by Micromagnetic Finite-Element Methods

The demagnetization curves were calculated using micromagnetic finite-element method for nanocomposite Pr 2Fe 14B/α-Fe permanent magnets with precipitate-typed microstructure. Due to intergrain exchange coupling, both remanence enhancement and a single magnetic phase behavior in demagnetization curve were found. For the samples with the hard phase as the precipitate and the soft one as the matrix, a coercivity μ 0H c of 0.78 T, a remanence J r of 1.18 T and a large energy product (BH) max of 200 kJ·m -3 are obtained for the sample with hard grain size being 23 nm. While, for the sample with the soft phase as the precipitate, μ 0H c of 0.95 T, J r of 1.24 T and (BH) max of 240 kJ·m -3 are obtained for the sample with soft grain size being 10 nm. The calculating results were compared with the experimental Pr 8Fe 87B 5 ribbons. The dependence of remanence and coercivity on the microstructure was discussed extensively.

Sm^(3+)掺杂LaOF荧光粉的制备及光学性能

以LaOF晶体为基质,利用水热辅助固相法制备出一系列Sm^(3+)掺杂LaOF荧光粉。采用XRD、TEM、荧光光谱仪等测试手段对所制得的样品的相结构、微观形貌及光学性能进行表征。结果表明,LaOF在不同煅烧温度下会产生四方相和斜方六面体两种不同晶相。此外,由于受跃迁概率和局域对称性的影响,Sm^(3+)掺杂四方相LaOF发光强度更大,其各浓度样品在405 nm光激发下,于567 nm、605 nm、651 nm和710 nm等处均出现了Sm^(3+)的特征发射峰,并且随着Sm^(3+)掺杂量的增加,其发光强度呈现先增大后减小的趋势,且当Sm^(3+)掺杂量为3.0%(摩尔分数,下同)时,La_(1-x)Sm_(x)OF样品发光强度达最大值。此外,所得样品的色纯度极高,其多个激发峰均位于商用近紫外和蓝光LED芯片的发射波长附近,可实现多种波长激发下的可见橙光发射。

动能歧视(KED)-电感耦合等离子体质谱(ICP-MS)法测定贵州沉积型稀土矿中16种稀土元素

贵州沉积型稀土矿主要含有高岭土-锐钛矿石等矿物,存在高含量Si、Al、Fe、Ti、Zr等难溶基体元素,采用高压密闭微波消解法处理难以将其完全溶解,易使测定结果偏低,需再次消解或进一步电热板敞开酸溶处理,方法耗时长,不利于大批量样品检测需求。同时电感耦合等离子体质谱(ICP-MS)法在测定稀土元素时存在基体和质谱干扰,影响了检测数据的准确性。采用过氧化钠熔融分解样品,熔融物冷却后引入三乙醇胺溶液,在碱性溶液中,大量基体元素与三乙醇胺形成稳定配合物,并与大量溶剂钠盐存于溶液中,稀土元素与Ca、Mg、Sr、Ba等留存于沉淀,经过滤,实现稀土元素与大量基体元素分离,随后沉淀用硝酸(1+1)复溶,并以^(103)Rh和^(185)Re为在线注入内标协同降低基体干扰;启用动能歧视(KED)模式以降低测定过程中潜在的质谱干扰。实验结果表明:高压密闭微波消解法消解液浑浊有残渣,溶矿耗时长,测试结果偏低,碱熔法酸化后溶液清亮透明,稀土元素测定值准确性高;采用10%三乙醇胺溶液提取能较大地降低基体干扰;启用KED模式可降低测定过程中的质谱干扰,且准确度优于STD模式;碱熔法检出限为0.008~0.049μg/g,测定下限为0.034~0.2μg/g,相对标准偏差RSD在0.78%~10.2%,相对误差RE在0.022%~13.5%。经实际样品验证,碱熔法较适用于贵州沉积性稀土矿中16种稀土元素的测定。

新型双掺杂红色荧光粉Ba_(2)MgGe_(2)O_(7):xBi^(3+),yEu^(3+)的制备及性能研究

通过高温固相法制备出Ba_(2)MgGe_(2)O_(7)固体荧光粉,采用实验研究方法进行分析测定,其中包括对所得BMGO荧光粉进行荧光光谱分析,了解掺杂离子不同含量下各个样品的光学性能,分析解释BMGO荧光粉通过掺杂Bi^(3+)、Eu^(3+)后,样品发射光谱强度大大提高,呈现稀土铕离子的特征峰,具有荧光效应的显著特点;分析系列荧光粉的粉末X射线衍射光谱,探究掺杂新离子后,BMGO的晶态物质的物相分析,晶态物质组成元素是否有结构差异;CIE色度图和荧光光谱显示,样品含量为Ba_(2)MgGe_(2)O_(7):0.01%Bi^(3+),4%Eu^(3+)荧光强度最高,色纯度接近正红色。

浇铸过程中稀土元素的添加对铜模寿命的影响

铜模的质量与寿命直接影响着阳极板质量。基于稀土对铜的作用机理,提出了在铜模浇铸过程中加入稀土元素,能够调整铜模性能,延长铜模使用寿命。在不改变阳极炉现有铜模浇铸工艺的情况下,对比研究了浇铸温度、稀土添加比例、铜模冷却方式3种变量因素对铜模寿命的影响。试验结果表明,铜水温度为1 153~1 157℃,稀土元素添加比例为0.2%,采用水冷方式进行冷却的铜模寿命最高。

基于基本参数法的EDXRF全谱拟合定量算法及其应用

在进行能量色散X射线荧光(EDXRF)的解谱操作时,如果样品中元素含量不高,单个元素的谱峰形状在混合样品谱中会保持较好,纯元素谱剥离是一种比较好的解谱方法,同时,在不高的含量范围内,谱峰强度与元素含量的线性关系保持较好,定量较为准确;但在常量分析中,元素之间会存在较强的吸收增强效应,并导致混合样品谱中单个元素的贡献与其纯元素谱的形状不一致,因此,用固定形状的纯元素谱剥离方法就会有较大偏差。同时,吸收增强效应会干扰谱峰强度与元素含量的线性关系,两种因素的叠加,导致元素定量的不准确,因此,在进行常量分析时,简单的纯元素谱剥离的解谱方法并不适用。介绍了一种基于基本参数(FP)法的全谱拟合定量算法,在进行谱图准确拟合的同时,完成定量计算,其操作步骤如下:首先用纯元素谱剥离的方法得到实测的各谱线强度,并以此为依据预估样品中各元素含量,然后代入FP法计算样品中各谱线理论强度,根据与实测值的偏差调整元素含量,并做“FP计算-调整含量”两个过程的迭代,直至计算谱与实测谱的强度无差别;用最后的样品构成计算各元素谱峰形状,并修正纯元素谱,再次重复“剥离解谱-估算含量-迭代FP计算”的步骤,将最终得到的元素含量认为是测试结果。该种方法弥补了简单解谱剥离方法的弊端,借助于基本参数法的计算,纯元素谱峰得到了修正,解谱更准确,同时也能很好地校正基体效应对定量分析的影响。利用这种方法对较高浓度La/Ce/Pr/Nd混合溶液样品的EDXRF谱图进行分析,新方法计算得到的谱图与实测谱的残差σ降至474.5,远小于单纯使用纯元素谱剥离方法的1415.0[1]。用该方法对多个配分含量范围从0~90%的稀土混合溶液进行检测,各样品各元素配分偏差均小于1%,多次连续测试表明,各元素的相对标准偏差RSD<1%,该方法的准确度和稳定性都较好,能很好地满足稀土冶炼行业生产实践的需求。

稀土分量的XRF法分析-熔珠粉末压薄片法

本法用50mg稀土氧化物样品,经四硼酸锂熔融后,粉碎压成薄片,以透空照射法,直接测定15项稀土分量和铀、钍。本法消除基体效应好,制样精度高,测定含量范围宽。

电感耦合等离子体串联质谱法测定煤灰中痕量稀土元素

煤灰是稀土等战略性关键金属资源的重要资源来源之一,目前国内外尚未建立煤中稀土元素的标准分析方法。相比其他类型的传统稀土矿产,煤灰基体组成更为复杂。针对现有酸湿法消解-电感耦合等离子体质谱(ICP-MS)测试煤灰中稀土元素存在的前处理效率低、质谱干扰及其消除方法繁琐复杂、测试结果不够准确等问题,提出一种基于石墨消解-(动态反应池)电感耦合等离子串联质谱(ICP-MS/MS)的煤灰中微量稀土元素快速、准确测定含量的方法。通过比较不同消解体系(硝酸、硝酸-盐酸、硝酸-氢氟酸、硝酸-盐酸-氢氟酸)与消解温度(100、140、180℃)对测试结果的影响,发现以硝酸-盐酸-氢氟酸为消解介质、140℃温度条件下煤灰消解效果最好,氢氟酸的加入可以显著提升稀土提取效率,二次加水消解赶去HF避免了难溶氟化物的生成及HF对质谱测试的不利影响。ICP-MS/MS测定过程中分别将Rh、Re元素作为内标在线加入补偿基体效应,通过对比无气体质量原位模式(M-SQ-N/A)、氦气碰撞和动能歧视模式(M-SQ-KED)、氧气质量转移模式(M-TQ-O_(2))、氨气质量转移模式(M-TQ-NH_(3))四种测定模式,发现M-SQ-KED模式下测试值更接近真实值,质谱干扰最小,各元素测试回收率为92.49%~112.88%,检出限低于0.0052μg·g^(-1),相对标准偏差低于1.71%。以煤灰测定过程中常见的Ba对Eu干扰为例,模拟高Ba本底溶液中Eu测试,揭示出M-SQ-KED模式通过反应气与待测元素和干扰离子碰撞概率不同可极大程度减弱多原子离子干扰。将以上方法应用到我国不同电厂燃煤飞灰样品分析,测定得到的稀土标准化曲线分布均一平滑,表明建立的方法稳定、可靠,相比于微波消解前处理,具有成本低、操作简便、效率高可大批量测定等优点;而动态反应池技术可在线消除质谱干扰,极大提高了工作效率。

降雨驱动下红壤团聚体的溅蚀特征及周转过程

[目的]研究降雨驱动作用下土壤团聚体受雨滴打击发生破碎和形成的过程,丰富土壤侵蚀研究机理。[方法]基于稀土元素示踪法,对各粒径土壤团聚体同时进行标记。在90 mm/h降雨溅蚀条件下,通过各粒径土壤团聚体(2~5 mm,0.25~2 mm,0.053~0.25 mm,<0.053 mm)在不同降雨特征参数(降雨历时、雨滴大小)下的质量变化和稀土元素含量变化,定量分析了团聚体间的周转路径和溅蚀颗粒特征。[结果]降雨驱动作用下,溅蚀量和溅蚀率会随着降雨动能的增加而变大,溅蚀颗粒主要分布于0.25~2 mm粒径范围内;除>2 mm的颗粒为大团聚体直接飞溅产生,<0.25 mm粒级溅蚀颗粒均主要源于大粒级团聚体破碎形成,最高可达到73.83%,其次为该粒级直接被击飞形成,同时会有小粒级颗粒吸附黏结形成;在残余团聚体的动态周转过程中,主要是相邻级别的团聚体间形成和破碎过程占比较高,其中大团聚体破碎产生小团聚体和粉黏粒团聚形成小团聚体分别对原粒级团聚体的破碎和形成方向的贡献率较高,分别达到24.06%~42.15%和36.83%~70.76%,且随着降雨时间的变化,大团聚体首先破碎成小团聚体,再逐级破碎成更小粒级的团聚体,未参与动态周转的团聚体比例会逐渐下降。[结论]降雨溅蚀不断驱动土壤团聚体的周转过程,并对溅蚀特征产生较大影响,未来应引入土壤营养物质迁移研究,完善土壤侵蚀过程定量模型。

9批正品龙骨药材的年代测定及年代与成分的相关性分析

采用^(14)C测年法对采集的龙骨样品进行了年代测定,选取其中9批符合化石年代的正品龙骨,采用X射线粉末衍射技术(XRD)和电子探针微区分析技术对样品的物相组成及元素赋存形态进行了分析,结果显示龙骨的主体物相为羟磷酸钙,部分样品为羟磷酸钙和碳酸钙共存;样品中的羟磷酸钙以羟基磷灰石为主要存在形式,碳酸钙则多以方解石型碳酸钙存在,少部分以白云石形式存在。采用ARF、ICP-AES、ICP-MS、AES法对9批正品龙骨样品进行了元素含量的测定,结果显示:龙骨中钙磷的比值均大于2,推测因化石形成过程中,骨骼的有机磷在地质过程中较多被分解而造成;9批龙骨的微量元素具有大致相同的分配模式:Sc、V、Cr、Co、Ni、Cu六种元素相对原始地幔均为亏损,Ba、Sr、As为异常富集,元素U为高度富集;9批龙骨中的稀土元素分布也具有大致相同的分配模式,表现为轻稀土富集型,Ce负异常,Eu部分正异常、部分负异常,Y轻微正异常;6批年代在4.35万年以前的龙骨,稀土元素总量明显高于3批年代在1.8~3.7万年之间的样品,推测一方面与其埋藏成岩环境有关,另一方面与其埋葬年代更为久远有关。

NaYF_(4)∶Yb^(3+),Tm^(3+)稀土掺杂上转换纳米材料的制备与条件优化

利用溶剂热法制备油相NaYF_(4)∶Yb^(3+),Tm^(3+),经“超声去油”后得到水相NaYF_(4)∶Yb^(3+),Tm^(3+),并对稀土离子掺杂比例、反应温度、反应时间和油酸体积分数进行条件优化,通过X-射线衍射(XRD)、透射电子显微镜(TEM)、扫描电子显微镜(SEM)和分子荧光光谱仪(MFS)对其进行表征。结果表明,当稀土离子掺杂比例为NaYF_(4)∶25%Yb^(3+),0.3%Tm^(3+),反应时间为60 min,反应温度为300℃,油酸体积分数为20.6%时,合成的水相NaYF_(4)∶Yb^(3+),Tm^(3+)为六方晶型结构,六边形两平面间的平均粒径大小约为50 nm,形貌均匀、尺寸均一、分散性良好,980 nm近红外光激发下,在452和478 nm处荧光强度最大,且发出明亮的蓝色荧光。水相NaYF_(4)∶Yb^(3+),Tm^(3+)的成功制备为其后续在细胞成像、生物传感以及检测方面的应用奠定了基础。

稀土火法冶炼回收料中稀土总量的测定

稀土火法冶炼回收料是指稀土熔盐电解冶炼工艺产生的电解渣及金属热还原产生的热还原渣。该类物料经除杂加工后可用于再次提取稀土等有价元素,其中稀土总量是其确定回收利用价值的主要依据。试验采用硝酸-过氧化氢-高氯酸分解,氨水沉淀稀土,继以用盐酸溶解氢氧化物沉淀,在pH 1.5~2.0的酸性条件下,加草酸沉淀稀土,分离铁、铝等。将草酸稀土于950℃灼烧成稀土氧化物,称其质量,计算稀土总量。当样品含重稀土元素镝、钬、铒、铥、镱、镥、钇含量时,需用电感耦合等离子发射光谱法测定草酸沉淀滤液中稀土量,对结果进行补正。标准加入回收率为99.41%~103.10%,统一样品测定结果的相对标准偏差(n=11)为0.14%~0.46%,该方法准确可靠。

风化壳离子吸附型稀土矿圈矿方法评价

离子吸附型稀土矿是我国特有的珍贵资源。稀土总量(TREO)与稀土浸取量(SREO)是评价这类矿产资源规模与可利用价值的重要指标,但是四十多年来勘查评价方法一直以总量圈矿、以配分定性,与其采矿工艺和当前稀土价值不符。本文在矿区勘查实践的基础上,通过分析大量系统的样品测试结果,结合近五年稀土价格推算的浸取量和单元素圈矿指标,开展了稀土总量、稀土浸取量和稀土单元素三种圈矿方法对比研究。结果表明,同一对比区内,用稀土总量≥0.05%圈出的矿体与稀土浸取量≥0.03%圈出的矿体,后者的矿体面积、矿体厚度及资源储量要明显大于前者,存在一些地段或部位总量圈定不是矿而浸取量圈定是矿,一些地段或部位总量圈定是矿而浸取量圈定不是矿的现象。稀土单元素圈矿能够直观地反映稀土的主要组分及分布状况,有利于体现单一稀土矿床的经济价值,较稀土总量圈矿和稀土浸取量圈矿更加精细、更加合理,是值得深入研究的一种科学评价方法;但也可能出现因一些元素含量偏低而难以单独圈矿的现象,从而造成资源流失。本文提出,在勘查评价风化壳离子吸附型稀土矿床时,为保障资源的充分利用,在稀土单元素圈矿的基础上,还应注重综合评价。

RE/TiO_2用于NO_2^-光催化氧化的研究

以稀土盐和钛酸丁酯为原料 ,采用溶胶 凝胶法制备了掺杂稀土光催化剂RE/TiO2 (RE =La ,Ce ,Er,Pr,Gd ,Nd ,Sm) ,并用XRD ,DRS和IR等手段对RE/TiO2 进行了表征 ;以NO-2 为目标降解物 ,考察了其光催化氧化活性 .结果表明 ,适量RE的掺入 ,可有效扩展TiO2 的光谱响应范围 ,有利于NO-2 的吸附 ,使光催化活性均有不同程度的提高 .其中掺杂Gd样品的光催化活性最高 .掺杂量是影响光催化活性的重要因素 ,一般最佳掺杂量为w(RE) ≈0 5 % .

土壤侵蚀REE示踪法研究初报

文中提出了一种研究土壤侵蚀的新方法——稀土元素(REE)示踪法;讨论了该方法的基本原理、REE施加量计算、实验技术及应用前景。人工降雨小区的试验结果表明,该方法不但可用于精确测定不同地形部位侵蚀量,其测定结果相对误差小于15％,并可揭示降雨侵蚀过程不同地形部位侵蚀量的变化趋势。