Effect of rare earth on B-Al permeating and computer kinetic simulation of permeation layer forming

It was found that rare earth influenced per process of permeation layer forming, and that the tooth of layer was thinner, thicker, straighter and longer by observing permeation layers at different holding times.It was so image, lifelike and audio-visual by computer kinetic simulation that the layer forming could be continuously observed. Because it con forms to reality, the computer kinetic simulation can forecast the layer thickness and it will offer a reasonable permeating technology.

Effect of Rare Earths on Plant under Supplementary Ultraviolet-B Radiation: Ⅰ Effect of Cerium on Growth and Photosynthesis in Rape Seedlings Exposed to Supplementary Ultraviolet-B Radiation

Effect of cerium （Ce^3＋） on growth and photosynthesis in rape seedlings exposed to two levels of ultraviolet-B radiation （UV-B, 280 - 320 nm） was studied with hydroponics under laboratory conditions. The growth of rape seedlings exposed to two levels of UV-B irradiation （0.15 and 0.35 W· m^-2/T2） was both heavily restrained. The aboveground growth indices including stem （plant） height, leaf number, leaf area, leaf fresh/dry weight and stem fresh/dry weight were obviously decreased by 13.2% - 44.1% （T1） and 21 .4% - 49.3% （T2）. Compared to CK, and except active absorption area of roots, the belowground indices main root length, root volume and fresh/dry weight by 14.1% -35.6% （T1） and 20.3% - 42.6% （T2）, respectively. For Ce ＋ UV-B treatments, the aboveground and belowground growth indices were decreased by 4.1% - 23.6%, 5.2% -23.3% （Ce＋T1） and 10.8% -28.4%, 7.0% -27.8% （Ce ＋T2）, lower than those of UV-B treatments mentioned above. These results show that Ce has protective effect on plant against injury of UV-B radiation. Furthermore, the protective effect of Ce on seedlings exposed to T1 level of UV-B radiation is superior to T2 level. Chlorophyll content, net photosynthesis rate, transpiration rate, stomatal conductance and water use efficiency in UV-B treatments decrease dramatically, whereas intercellular CO2 concentration increases. Although these indices in Ce ＋ UV-B treatments decrease compared with those of CK, the decrease in Ce ＋ UV-B treatments are lower than those in UV-B treatment. This phenomenon indicates that the ecophysiological protective effect of Ce is based on improving photosynthesis in plants. The dynamic curves of photosynthesis indices show that the course of light-repair is shortened and the injury to rape seedlings by UV-B radiation stress is alleviated by Ce.

稀土Y及Al-5Ti-B细化剂复合添加对A356铝合金组织和力学性能的影响

用Al-20Y变质剂和Al-5Ti-B细化剂处理A356铝合金熔体,研究稀土Y与Al-5Ti-B复合添加对A356铝合金组织和力学性能的影响。结果表明:稀土Y和Al-5Ti-B复合添加能提高形核率、细化α-Al晶粒尺寸和改变共晶硅形貌,共晶硅的形貌由针状和板片状变为短杆状和颗粒状,使铸造铝合金的力学性能提高。添加稀土Y和Al-5Ti-B的A356铸造铝合金的抗拉强度、屈服强度和延伸率分别为146 MPa、98 MPa和4.0%。

Effect of Rare Earths on Plants under Supplementary Ultraviolet-B Radiation: Ⅱ. Effect of Cerium on Antioxidant Defense System in Rape Seedlings under Supplementary Ultraviolet-B Radiation

Effects of cerium （Ce^3＋ ） on membranous protective enzymes in rape seedlings exposed to two levels of enhanced uhraviolet-B radiation （UV-B, 280 - 320 nm） were studied by hydroponics in the laboratory. The results show that the chlorophyll content decreases and membrane permeability increases in the leaves under UV-B irradiation with an intensity of 0.15 and 0.35 W·m^-2. The activities of SOD, CAT and POD are first increased and then decreased in leaves exposed to a low level of UV-B radiation. POD activity in leaves exposed to a high level of UV-B radiation is enhanced constantly. The sensitivities of these enzymes to UV-B radiation are SOD 〉 CAT 〉 POD. The injury by UV-B radiation on the functions of protective enzymes is lightened, their ability to scavenge radicals is improved, and the membrane permeability is maintained by Ce. Furthermore, the protective effect of cerium is more obvious in plants exposed to low levels of UV-B radiation than to high levels of it. Accordingly, all results prove that the protective effect of Ce on plants under UV-B radiation is realized through the protective system of plants.

CsBa_(2)ScB_(8)O_(16):首例结构中同时含有零维[B_(3)O_(6)]基元和一维B—O链的稀土硼酸盐

利用高温溶液法合成了首例结构中同时含有零维[B_(3)O_(6)]基元和一维B—O链的稀土硼酸盐晶体CsBa_(2)ScB_(8)O_(16),该晶体属于三斜晶系,空间群为P1,晶胞参数为a=6.6985Å,b=7.216Å,c=14.798Å,α=97.563°,β=95.226°,γ=95.546°,Z=2。该晶体中的[BO3]与[B4 O9]基元通过共享氧原子连接形成一维[B_(5)O_(10)]_(∞)链,[Sc(1)O_(6)]八面体与一维[B5 O_(10)]_(∞)链通过共享氧原子形成二维[Sc(1)(B_(4)O_(9))]_(∞)层,层间由[Sc(2)O_(6)]八面体连接形成Sc—B—O三维框架。孤立的[B_(3)O_(6)]基元与Cs^(+)、Ba^(2+)填充在三维孔道内维持电荷平衡。为了进一步探索CsBa_(2)ScB_(8)O_(16)结构的新颖性,将该晶体与其他含有碱金属或碱土金属的稀土硼酸进行比较,讨论了阳离子与硼的摩尔比(n(A)/n(B))对B—O基元的聚合度及B—O阴离子框架维度的影响。此外,对化合物进行了红外光谱、紫外-可见-近红外漫反射光谱,以及热学行为等表征测试,并基于第一性原理计算对化合物微观电子层面进行了计算分析。结果表明CsBa_(2)ScB_(8)O_(16)的紫外截止边小于190 nm,双折射为0.072@1064 nm,其光学特性主要由[B3O6]基元、[B5O10]基元和[ScO6]多面体贡献。

基于第一性原理分析铈对Al-Ti-B-Ce中间合金中TiB_(2)界面行为的影响

采用基于密度泛函理论的第一性原理,通过筛选建立了以8种最主要的高对称性原子堆垛方式形成的TiB_(2)(0001)//TiB_(2)(0001)界面模型,计算了Al-Ti-B中间合金中掺杂稀土铈前后该界面的黏附功以及铈在界面处的偏聚焓和在(0001)面的吸附能,分析了铈对TiB_(2)界面行为的影响。结果表明:细化剂中掺杂铈后由2个以钛原子为终端的表面通过心位方式堆垛形成的界面和由以钛原子为终端的表面与以硼原子为终端的表面通过心位堆垛形成的界面的黏附功降低,有助于TiB_(2)弥散分布;铈在该界面处的偏聚焓为正值,无法自发偏聚到界面处,铈在TiB_(2)(0001)表面上具有较高的吸附能,可抑制TiB_(2)在此面的堆垛生长。

Rare Earths and Magnetic Refrigeration

Magnetic refrigeration is a revolutionary, efficient, environmentally friendly cooling technology, which is on the threshold of commercialization. The magnetic rare earth materials are utilized as the magnetic refrigerants in most cooling devices, and for many cooling application the Nd2Fe14B permanent magnets are employed as the source of the magnetic field. The status of the near room temperature magnetic cooling was reviewed.

Ce、La添加对DyCo晶界扩散烧结Nd-Fe-B磁体性能的影响

为了有效利用高丰度稀土,在重稀土扩散源Dy_(60)Co_(40)中添加Ce、La以取代Dy。研究了不同的Ce、La添加量对Dy_(60)Co_(40)晶界扩散烧结Nd-Fe-B磁体性能的影响。结果表明:Dy_(30)Ce_(30)Co_(40)、Dy_(30)(Ce_(0.4)La_(0.6))_(30)Co_(40)晶界扩散均能大幅提升Nd-Fe-B磁体的矫顽力,分别为1509和1527 kA/m,相比原始Nd-Fe-B磁体的矫顽力分别提高了31.7%和33.2%,且剩磁和最大磁能积下降不明显。微观组织研究表明,Ce主要分布在晶界相中形成富Ce相,不利于Dy的扩散;而La的添加限制了Ce进入主相晶粒,促进了Dy的扩散,从而进一步提高了磁体的矫顽力。热稳定性研究发现,Ce、La的添加均能提高磁体的热稳定性,但是其提升效果均没有Dy_(60)Co_(40)扩散磁体明显,这与形成了低磁晶各向异性场的Ce_(2)Fe_(14)B和La_(2)Fe_(14)B相有关。

无重稀土烧结Nd-Fe-B磁体的显微结构和磁性能研究

对Ga、Al、Cu和Zr共同掺杂的烧结Nd-Fe-B磁体磁性能和显微结构进行研究,并通过回火工艺对磁体的矫顽力进行调控。结果表明:当一级回火为900℃×150 min,且二级回火为500℃×180 min时,磁体矫顽力H_(cj)从烧结态的14.33 kOe大幅提高到二级回火态的19.86 kOe,提高了38.6%;方形度H_(k)/H_(cj)由0.86增加到0.97;剩磁B_(r)仅从烧结态13.51 kGs略微下降到二级回火态的13.46 kGs;富稀土相分布更加连续和明显。研究分析表明,矫顽力大幅增加主要是由于含有少量的富Nd相和贫B相的烧结Nd-Fe-B磁体中Ga的掺杂改变了晶界相湿润性,降低了富稀土相中Fe元素的含量。本研究为无重稀土高矫顽力和高剩磁烧结Nd-Fe-B磁体步入产业化夯实了理论基础。

稀土对Al-Ti-B-RE中间合金细化性能的影响

研究稀土元素的加入对铝及铝晶粒细化剂Al-Ti-B-RE中间合金细化性能的影响。结果表明:稀土元素的加入无论是对合金中第二相粒子的尺寸、分布及细化能力,还是对细化剂的衰退延时性、重熔性能及细化效果都有重要影响,使Al-Ti-B-Re中间合金的细化能力较Al-Ti-B有了很大提高。

稀土Ce^(3+)掺杂Bi_2WO_6光催化降解罗丹明B的研究

采用水热合成法制备稀土元素Ce3+掺杂Bi2WO6光催剂,通过X射线衍射、场发射电镜扫描、紫外-可见漫反射光谱、N2物理吸附-脱附等手段对合成材料的结构、形貌、光吸收等物理化学性能进行表征,并以染料废水中罗丹明B的降解考察其光催化活性.结果表明,Ce3+掺杂量为0.05%时,其结晶度好、颗粒较均匀、具有较强的可见光吸收性能,且比表面积比纯Bi2WO6提高近10%以上,对罗丹明B的去除效果最好;催化剂用量越高、罗丹明B的初始浓度越低、反应溶液p H值越低、H2O2的浓度越高越有利于Ce/Bi2WO6对罗丹明B的吸附和降解;而阴阳离子的影响各不相同:NO3-、SO42-没有太大的影响;Na+、K+、Ca2+、Mg2+、Cl-的加入均促使的染料的去除;HCO3-抑制了罗丹明B的吸附,但是却促进了光降解.另外,经重复使用3次,光催化降解速率常数并没有降低,表明稀土Ce3+改性Bi2WO6是一种有效稳定的光催化剂.

1#稀土变质处理Fe-Cr-B合金组织研究

研究1#稀土变质处理对Fe-Cr-B合金组织的影响。结果发现,变质处理后Fe-Cr-B合金的铸态组织明显细化;原来在晶界处分布的连续的、网状的硼化物转变成为不连续的短杆状的和粒状的形态,表明稀土对Fe-Cr-B合金有明显的变质效果。

中间合金铝晶粒细化剂Al-Ti-B-RE的研究

采用普通熔铸法制备Al-Ti-B-RE中间合金细化剂,并就稀土元素、保温温度、过热温度对合金组织及细化效果的影响进行研究。结果表明:稀土元素对TiAl晶粒大小、形貌及分布影响明显,增大了铝熔体与TiB2之间的湿润角,提高细化效果,而静置温度和过热温度的影响较小。

B_2O_3对Eu^(2+),Dy^(3+)共激活铝酸锶发光材料发光性能的影响

文章借助于材料的发射光谱和结晶相组成分析研究了B2 O3 对Eu2 + ,Dy3 + 共激活铝酸锶发光材料发光性能的影响。B2 O3 在Eu2 + ,Dy3 + 共激活铝酸锶发光材料的合成过程中 ,一方面作为助熔剂 ,降低发光材料的合成温度 ;另一方面 ,硼酸盐的存在促进Eu3 + 离子转化为Eu2 + 离子的还原过程。但是 ,B2 O3

铈变质处理Fe-Cr-B合金组织和机械性能研究

研究了铈变质处理对Fe-Cr-B合金组织性能的影响。结果发现,处理后的Fe-Cr-B合金的铸态组织较之以前明显细化;原来在晶界处分布的连续的、网状的硼化物转变成为不连续的短杆状的和粒状的形态,表明稀土对Fe-Cr-B合金有明显的变质效果。但机械性能随变质剂加入量不同变化比较复杂。

1^#稀土变质处理Fe-Cr-B合金组织中硼化物M2B组织形态的分析

研究1#稀土变质处理对Fe-Cr-B合金组织中硼化物M2B组织形态的影响。结果表明:处理后的Fe-Cr-B合金的铸态组织中硼化物M2B组织较之以前明显细化,并且随着加入量的不同,细化作用也不同;原来在晶界处分布的连续的、网状的硼化物转变成为不连续的短杆状的和粒状的形态,说明稀土对Fe-Cr-B合金有明显的变质效果。

稀土元素对增强UV-B辐照下小麦抗氧化酶的影响

盆栽条件下,研究了增强紫外线B(UV-B,280～320nm)辐照对小麦幼苗抗氧化酶的影响以及施用稀土元素后的修复作用。结果表明,与对照(CK)相比,增强UV-B辐照处理的小麦幼苗过氧化氢酶(CAT)、过氧化物酶(POD)活性和丙二醛(MDA)含量显著升高(P<0.05),而超氧歧化酶(SOD)活性有所升高,峰值后移。施用稀土元素后可以抑制由于紫外线辐照所导致的MDA含量及POD活性的增加,且SOD、CAT的活性增强,提高了清除活性氧的能力,减弱了UV-B辐照对小麦抗氧化酶的影响。研究发现,各施用浓度为0.3%、0.1%和0.075%的稀土元素处理下,以0.075%的处理对紫外线B的抗逆效应最好。施用适量的稀土元素可改变小麦的抗氧化酶活性,提高小麦抗逆性。

烧结Nd-Fe-B磁体表面渗镀Dy2O3对磁体显微组织和磁性能的影响

研究了烧结Nd-Fe-B磁体表面渗镀Dy2O3对磁体组织结构与磁性能的影响。表面渗镀Dy2O3后,N40的矫顽力由1017 kA.m-1提高到1146 kA.m-1,38H的矫顽力由1575 kA.m-1提高到1753 kA.m-1,而通过传统合金化添加同量Dy,N40和38H的矫顽力分别为1061和1634 kA.m-1。磁体表面渗镀Dy2O3后热稳定性也大大改善。组织分析表明,元素Dy从表面扩散并渗入磁体的内部约20μm厚,Nd2Fe14B晶粒表层附近Dy含量比晶界中高,说明Dy2O3中的Dy通过扩散与富Nd相及Nd2Fe14B晶粒表面层的部分Nd发生置换反应,增强了Nd2Fe14B晶粒表面层的磁晶各向异性。在此基础上,提出了高矫顽力高热稳定性渗Dy的烧结Nd-Fe-B磁体中Dy分布的理想模型。

添加Al、Mg、W、Mo对烧结Nd-Fe-B磁体磁性能与显微组织的影响

研究了在烧结ＮｄＦｅＢ磁体晶间添加Ａｌ、Ｍｇ、Ｗ、Ｍｏ等合金元素对显微组织和磁性能的影响。实验结果表明：低熔点合金元素Ａｌ、Ｍｇ能显著提高ＮｄＦｅＢ磁体的矫顽力，略微降低剩磁，对磁体的热稳定性无影响；高熔点合金元素Ｗ、Ｍｏ在不降低剩磁的情况下亦能提高磁体的矫顽力，但效果不如Ａｌ、Ｍｇ明显。显微组织分析表明，在添加低熔点和高熔点合金元素的磁体晶间发现了两种不同的新相。矫顽力的提高可归于晶间新相的出现。进一步分析表明，与传统的合金化相比，对ＮｄＦｅＢ磁体晶间区域进行微合金化是改进ＮｄＦｅＢ磁体组织与性能的一种更为有效的手段。

稀土钕掺杂氧化锌纳米材料的制备及对罗丹明B的降解研究

采用直接沉淀法对纳米氧化锌做稀土掺杂改性,制备了钕掺杂纳米氧化锌,并采用X射线衍射、扫描电子显微镜、固体荧光光谱等测试手段对产品做了分析与表征,考察掺杂对氧化锌的物相、晶体结构、荧光性质的影响,将其应用于废水中罗丹明B的光催化降解。结果表明:钕掺杂可大幅度提高纳米氧化锌在汞灯照射下的光催化性能。随着掺杂量增加,掺杂氧化锌纳米材料的光催化降解性能逐渐升高,掺加7%(物质的量分数)钕的纳米氧化锌对罗丹明B的去除率可达89.62%。