挤压制备纳米晶复相Nd_2Fe_(14)B/α-Fe永磁材料相对密度的研究

本文将成分为Nd2Fe14B(原子比)铸态合金和羰基铁粉的混合粉末进行搅拌式机械球磨,对其球磨后的合金粉末进行冷压制坯、包套挤压获得纳米晶复相Nd2Fe14B/α-Fe永磁合金。研究了不同挤压温度对合金相对密度的影响。结果表明,经1000℃包套挤压后形成的Nd2Fe14B/α-Fe纳米晶复相永磁材料的相对密度最高,达到98.4%。

Nd_(21)Pr_7Gd_4Fe_(66.02)Cu_(0.2)Al_(0.7)B_(1.08)磁体添加纳米粉MgO研究

研究了添加纳米粉Mg O对Nd21Pr7Gd4Fe66.02Cu0.2Al0.7B1.08磁体的影响。通过扫描电镜能谱研究分析可知,纳米粉Mg O主要分布于磁体的晶界相当中。通过XRD分析可知:添加w(Mg O)=0.2%的纳米粉Mg O,磁体主晶粒(006)晶向晶粒发育良好,晶粒取向度较好;添加w(Mg O)=0.2%的纳米粉Mg O,磁体Nd21Pr7Gd4Fe66.02Cu0.2Al0.7B1.08有最高的剩磁(1.204 T);添加w(Mg O)=0.4%纳米粉Mg O,磁体Nd21Pr7Gd4Fe66.02Cu0.2Al0.7B1.08有最高的矫顽力(11.70 k A/m);添加Mg O的磁体比未添加Mg O的磁体耐腐蚀性要好。

Influence of Heat Treatment on Microstructures and Properties of Nd_8Fe_(78)B_6Co_4 Alloy

Melt-spun Nd8Fe78B6Co4 magnetic powders and their bonded magnets were prepared with the optimization of compositions and preparation techniques. The microstructure change of alloy NdFeB and the relation between microstruc-ture and heat-treatment were studied. The heat-treatment temperature is 200 ~ 700℃. The as-cast structure of the alloy is typically amorphous. Different melt-spun speed and different heat treatment could result in different magnetic properties of NdFeB magnets. Magnetic properties of NdFeB increase with the addition of element Co. The magnetic properties of magnet alloy get the best when the melt-spun speed reaches 23 ~ 26 m·s-1, heat treatment temperature is 690℃and time is 30 min.

Nd_7Fe_(61)B_(22)Mo_4Y_6纳米复合永磁材料的磁性能及微结构

采用铜模喷注法成功制备了尺寸为1×5×50 mm的长片状Nd_7Fe_(61)B_(22)Mo_4Y_6合金。通过差式扫描量热分析、X射线衍射分析及磁性能测量系统研究了合金的热稳定性、相组成及磁性能。结果表明,合金的磁性能对于热处理条件极为敏感,铸态合金显示软磁性能,经不同温度热处理后,其磁性转变为硬磁特性。通过740℃等温退火10 min,合金表现出最佳磁学性能,其中剩磁0.51 T,矫顽力1289 kA/m,最大磁能积46.2 kJ/m3。Nd_7Fe_(61)B_(22)Mo_4Y_6合金优良的磁性能可以归结为软磁相颗粒α-Fe、Fe3B和硬磁相颗粒Nd2Fe14B之间强烈的交换耦合作用。由于其尺寸大和磁性能良好的特点,Nd-Fe-B-Mo-Y系纳米复合永磁合金具有潜在的应用价值。

富钕相对烧结NdFeB磁体耐腐蚀性的影响

研究了Nd2Fe14B单晶、传统烧结NdFeB磁体和放电等离子烧结(简称SPS)NdFeB磁体在电解液溶液中的电化学特性。采用扫描电子显微镜和电子能谱分析了磁体的微观组织成分。结果表明在3.5%NaCl溶液的极化曲线中,Nd2Fe14B单晶具有最高的电化学腐蚀电位,放电等离子烧结NdFeB磁体的腐蚀电位高于传统烧结NdFeB磁体。与传统烧结NdFeB磁体相比,放电等离子烧结NdFeB磁体富Nd相具有独特的分布形态,主相Nd2Fe14B晶粒细小、均匀,富钕相在主相晶粒边界上分布较少,主要集中在三角晶界处。这种组织结构有效地抑制了磁体沿富钕相发生晶间腐蚀的过程,磁体因此具有良好的耐腐蚀性能。此外,从不同稀土含量的烧结NdFeB磁体的高压加速实验中可以看出磁体的腐蚀速度随稀土含量的增加而增大。以上结果表明富Nd相的化学特性及其分布状态和含量是决定合金耐蚀性能的关键,它在合金中以网络状分布在主相晶粒边界上,并决定了烧结NdFeB易于发生选择性晶间腐蚀,从而导致耐蚀性差。

STRUCTURAL REFINEMENT FOR Nd_2(Fe_(0.9)Si_(0.1))_(14) B FROM NEUTRON DIFFRACTION MEASUREMENT

Neutron diffraction measurements on Nd2(Fe0,Si0 ,)14B at room temperature and 77 K were performed. Data analysis using profile refinement was carried out. The results show that at room temperature Si atoms occupy preferentially 4c, 8j, and I6k2 sites, and the magnetic moments of bath Nd and Fe are parallel to C-axis. At 77 K, the site occupations remain unchanged as in room temperature, while the calculated Nd magnetic moment direction has an angular deviation of 37.8 ° from C-axis.

Co_(66)Fe_4Mo_2Si_(16)B_(12)结构与磁性能的研究

采用铁芯测试仪测得合金样品的初始磁导率随温度的变化曲线,定出居里温度;用磁化强度小角旋转法测量非晶及晶化合金条带的饱和磁致伸缩系数λs;研究了不同温度退火后Co66Fe4Mo2Si16B12合金的磁性.结果表明:Co66Fe4Mo2Si16B12合金经退火后非晶相和剩余非晶相的居里温度随退火温度升高而提高;Co66Fe4Mo2Si16B12合金经高于500℃退火后磁性能变坏,是饱和磁致伸缩系数变大所致.

硼对硬磁性Nd_(60)Fe_(20)Al_(10)Co_(10)大块非晶合金的磁性与晶化行为的影响

利用示差扫描量热法,X射线衍射法和振动样品磁强计研究了少量B元素对Nd60Fe20Al10Co10大块非晶合金的磁性和晶化行为的影响。研究表明,用B元素部分取代Nd元素后,其内禀矫顽力有所增大,饱和磁化强度降低。晶化后,Nd60Fe20Al10Co10大块非晶合金退火析出的晶体相对硬磁性能无明显影响,而Nd58Fe20Al10Co10B2合金退火析出非铁磁性的Nd1.1Fe4B4相,使内禀矫顽力、饱和磁化强度、居里温度降低。

钙钛矿锰氧化物Ca_(0.5)Nd_(0.5)(Mn_(0.7)Fe_(0.3))O_3掺杂对Ca_(0.61)Nd_(0.26)TiO_3微波介电性能的影响

研究了传统固相反应法制备所得xCa_(0.5)Nd_(0.5)(Mn_(0.7)Fe_(0.3))O_3-(1–x)Ca_(0.61)Nd_(0.26)TiO_3(0.1≤x≤0.25,CNMFT_x)多晶陶瓷相组成、显微结构、烧结性能与微波介电性能之间的影响关系。X射线衍射研究表明,在研究组分范围内CNMFT_x样品均为单一正交钙钛矿结构;当烧结条件为1 400℃/4 h,x=0.1~0.2时,Fe^(3+)/Mn^(3+,4+)替代Ca_(0.61)Nd_(0.26)TiO_3中Ti^(4+)后,相对介电常数(εr为88.5~77.5)、品质因子(Q·f为7 010~9 370 GHz)和谐振频率温度系数(τf为207.4×10^(–6)/℃~149.1×10^(–6)/℃)逐渐降低,而当x=0.25时,εr(73.4)与τf值(119.6×10^(–6)/℃)仍按规律降低,虽然此时样品晶粒尺寸更为均匀,但Q·f值(5 100 GHz)降幅增加。因此,对于ABO3型钙钛矿结构的微波介质陶瓷,当具有铁磁效应离子的添加量较小时,微波介电性能的变化符合预期规律;但当置换量达到一定比例时,铁磁性增加,导电性增强,巨磁电阻效应减小,致使微波陶瓷介电损耗增加。

2,6-二溴-4-甲基偶氮磺分光光度法测定钕铁硼合金中的钕

研究2，6-二溴-4-甲基偶氮磺(DBM—SA)与钕(Ⅲ)的显色反应，建立了测定钕铁硼合金中钕的分光光度分析方法。在2mol／L磷酸介质中，钕(Ⅲ)与DBM-SA发生灵敏的显色反应，生成配合比为1：2的蓝色配合物，其最大吸收波长为634nm，表观摩尔吸光系数为1．0×10^5L／(mol·cm)。钕(Ⅲ)的浓度在0～1．0μg/mL内符合比耳定律。该方法用于实际样品分析，加标回收率为97．6％-99，8％，测定结果的相对标准偏差为0．65％～0．82％。

R_2Fe_(14)B型永磁材料中第二磁晶各向异性常数对反磁化过程的影响

针对低温下各向同性Pr2Fe14B永磁材料的最小形核场问题,用数值计算法和近似解析解研究了第二磁晶各向异性常数K2对最小形核场的影响.研究发现,尽管对于Nd2Fe14B永磁材料一级近似的解析解与数值计算结果很接近,但是对于低温下各向同性Pr2Fe14B永磁材料则至少要用二级近似下的解析解才能与数值计算结果相接近.用有关最小形核场的计算结果很好地解释了低温时各向同性Pr2Fe14B永磁材料的矫顽力与最小形核场的关系.

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.

EFFECT OF MAGNETIC FIELD ON CALCITONIN GENE-RELATED PEPTIDE IN PERIODONTAL LIG AMENTS OF RATS

proach change of CGRP with time in periodontal ligaments of rats in magnetic field, maxillae of 28 Wistar rats of 6 7 weeks were placed in magnetic fields of permanent magnets Nd 2 Fe 4 B. Changes of CGRP with t ime in maxillary periodontal ligaments of the rats were studied by immunohistochemistry. The result showed that: magnetic field had dynamic effect and some promotional effect on recove?E F F E C T O F M A G N E T I C F I E L D O N C A L C I T O N I N G E N E- R E L A T E D P E P T I D E I N P E R I O D O N T A L L I G A M E N T S O F R A T S X. Chang , K. Qin and Y. L. Lu Orthodontic Department of Stomatology College , China Medical University , Shenyang 110001 , China Manuscript received 24 June 1999 In order to approach change of C G R P with tim e in periodontal liga m ents of rats in m agneticfield , m axillae of 28 Wistar rats of 6 7 weeks w ere placed in m agnetic fields of per m anentm agnets Nd 2 Fe4 B. Changes of C G R P with tim e in m axillary periodontal liga ments of therats were stu died by i m m unohistoche mistry . The result sho wed that : m agnetic field had dy na m ic effect an d so m e pro motional effect on recovering and reconstruction of the periodontaltissues in it . This provided a better theoretical evidence for clinical use of per m anent m agnets .