稀土含量对速凝工艺制备(Nd,Dy)-(Fe,Al)-B合金结构和磁性能的影响

采用双合金法制备了不同稀土含量的(Nd,Dy)-(Fe,Al)-B合金系列,研究了稀土含量的多寡对薄带和最终烧结磁体的微观结构和磁性能的影响.研究结果表明,适量的稀土含量(～3145%)不仅能改善速凝带主相(Nd,Dy)₂Fe₁₄B的单相性,还有利于富稀土(Nd,Dy)相在晶界的均匀分布.当主相薄带的稀土含量在接近2∶14∶1相稀土含量时,磁体的内禀矫顽力和磁能积显著提高.当稀土含量较少时,对速凝薄带的合适时效热处理将能有效地提高最终烧结NdFeB磁体的磁特性. 关键词： 双相烧结 速凝技术 微观结构 磁性能     

烧结Nd25.5Dy6.5Co13FebalM1.05B0.98磁体温度稳定性和力学性能研究

本文采用速凝甩带-氢破-气流磨-取向成型-烧结回火等工序,同时添加Dy和Co元素,制备了烧结Nd_25.5Dy_6.5Co₁₃Fe_balM_1.05B_0.98磁体(Co13磁体),室温下磁能积(BH)_max=30.88 MGOe,矫顽力H_cj=19.01 kOe.与Nd₃₀Dy_1.5Co_0.5Fe_balM_1.05B_0.98(35SH)磁体相比, Co13磁体的室温磁性能略低,但温度稳定性显著提升,剩磁温度系数α从–0.136%/℃提升至–0.065%/℃(室温—180℃);居里温度T_C从310℃升高至约454℃;最高使用温度T_W从165℃提升到约200℃.力学性能测试和断口分析表明, Co13磁体中由于Co含量较高,主相晶粒发生解理断裂的比例提高...     

快速凝固Cu-1.5%Be合金的制备

采用单辊旋淬法制备了快速凝固Cu-1.5%Be合金(Be质量分数1.5%)薄带。根据热传输平衡方程对快速凝固冷却速率进行了估算,并借助X射线衍射仪、扫描电子显微镜对该合金的微观结构及相选择进行了分析。结果表明:当辊面线速度在29.93~39.19 m/s范围内时,合金冷却速率可达到9.80105~1.63106 K/s;随着辊轮转速的提高和喷注气压的减小,合金条带厚度和晶粒度逐渐变小;随着冷却速率的增加,溶质截留效果显著,合金相结构由复相向单相转变,当辊面线速度达到34.54 m/s时,Cu-1.5%Be合金可形成过饱和的-Cu固溶体组织,且组织细小均匀,可获得纳米晶;条带横断面显微组织由接近辊面一侧的细小等轴晶区、中间的柱状晶区和靠近自由表面的等轴晶区组成。     

急冷条件下NiAl-Mo三元共晶合金的组织形成机制

采用单辊急冷技术实现了NiAl-Mo三元两相共晶合金的快速凝固, 同时与常规条件下的凝固组织进行了对比研究. 实验发现, 单辊急冷的合金条带与常规条件的凝固样品均由B2结构的NiAl金属间化合物和bcc结构的Mo固溶体两相组成, 两相均具有(110)晶面优先生长的趋势, 并呈现出(110)NiAl//(110)Mo取向关系. 常规条件下得到的微观结构主要由规则的两相共晶组织组成, 形成了类似菊花状的共晶胞. 而单辊急冷条件下形成的组织结构主要是由近辊面的柱状晶区和近自由面的等轴晶区组成的凝固组织. 理论计算发现, 合金熔体的单辊辊速由10 m/s增大至50 m/s后, 其冷却速率从1.01×10⁷ K/s逐渐增大到2.46×10⁷ K/s, 冷却速率明显高于常规铸造过程, 因而形成了差别很大的凝固组织. 随着辊速(冷却速率)的增加, 合金条带的厚度从54.4 μm减小至22 μm, 近辊面柱状晶区的厚度所占比例也逐渐增大, 晶粒发生了明显细化. 关键词： 快速凝固 三元共晶 共晶转变 冷却速率     

深过冷三元Ni-Cu-Co合金的快速枝晶生长

研究了深过冷条件下三元Ni₈₀Cu₁₀Co₁₀合金的快速枝晶生长, 采用电磁悬浮无容器处理方法获得了335 K(0.2T_L)的最大过冷度. X射线衍射分析与差示扫描量热分析均表明,凝固组织为α-Ni单相固溶体. 随过冷度增大, 凝固组织显著细化, 并且当过冷度达110 K时，凝固组织的形态由粗大形枝晶转变为等轴晶. 深过冷条件下溶质截留效应增强, 使得微观偏析程度减小. 对不同过冷度下合金枝晶的生长速度进 关键词： 深过冷 枝晶生长 快速凝固 溶质截留     

SrAl_2B_2O_7:Dy~(3+)材料的制备及其发光性能

采用高温固相法制备了SrAl2B2O7:Dy3+发光材料.在350nm紫外光激发下,测得SrAl2B2O7:Dy3+材料的发射光谱为一个多峰宽谱,主峰分别为480,573和678nm;分别和Dy3+的4F9/2→6H15/2,4F9/2→6H13/2,4F9/2→6H11/2的跃迁发射相对应;监测573nm的发射峰,得到材料的激发光谱为一个多峰宽谱,主峰分别为295,325,350,365,400nm.研究了Dy3+掺杂浓度对SrAl2B2O7:Dy3+材料发射光谱的影响,随着Dy3+掺杂浓度的增大,SrAl2B2O7:Dy3+材料的Iy/Ib逐渐增大,根据Judd-Ofelt理论解释了其原因.随着Dy3+掺杂浓度的增大,Dy3+的4F9/2→6H13/2跃迁产生的573nm发射峰强度先增大,在4%时达到最大值,之后减小,其自身的浓度猝灭机理为电偶极-电偶极相互作用.不同的电荷补偿剂Li+,Na+,K+的引入均使发光强度得到提高,尤其以Li+最佳,发光强度提高了大约33%.     

氢稀释对高速生长纳米晶硅薄膜晶化特性的影响

以SiH₄与H₂为气源,采用射频等离子体增强化学气相沉积技术,在较高的压强(230Pa)下,研究氢稀释率对纳米晶硅薄膜的生长速率和晶化特性的影响. 实验表明,薄膜的晶化率,晶粒尺寸随着氢稀释率的提高而增加,当氢稀释率为99%,薄膜的晶化率接近70%. 而沉积速率却随着氢稀释率的减小而增加,当氢稀释率从99%减小到95%时,薄膜的沉积速率由0.3nm/s 增加至0.8nm/s. 关键词： 纳米晶硅薄膜 氢稀释 晶化率 硅烷     

原位生长技术制备石墨烯强化铜基复合材料

利用等离子增强化学气相沉积方法,在铜粉表面原位生长了站立石墨烯,用于制备石墨烯强化铜基复合材料.研究表明,石墨烯包覆在铜粉外表面,微观尺度实现了两者的均匀混合;生长的初期阶段,碳、氢等离子基团可将铜粉表面的氧化层还原,有助于铜粉-石墨烯之间形成良好的界面;石墨烯的成核是一个生长/刻蚀相互竞争的过程,其尺寸可受制备温度调控.利用放电等离子烧结方法将粉末压制成型,测试结果显示,添加石墨烯样品的电阻率降低了一个数量级,维氏硬度和屈服强度分别提高了15.6%和28.8%.     

YBCO超导层的a轴晶生长研究

采用化学溶液沉积制备YBCO薄膜,研究了氧分压对YBCO超导层a轴晶生长的影响.研究发现氧分压是YBCO薄膜a轴晶形成的关键因素.当氧分压改变,YBCO生长模式由c轴生长转变为过渡到a(b)-c混合生长模式.低氧分压可以促进YBCO的c轴生长.高氧分压影响YBCO超导层的微观结构,促使YBCO的织构取向变差,最终导致YBCO超导层的性能降低.     

Tm:Y2SiO5晶体的生长和光谱性质研究

采用中频感应提拉法生长了高质量的Tm:Y₂SiO₅(Tm:YSO)晶体,测定了晶体的晶格常数和分凝系数.运用劳厄照相法确定了单斜晶系Tm:YSO晶体的三个偏振轴〈010〉,D₁和D₂,在室温下测量了三个偏振轴方向的吸收光谱、荧光光谱和荧光寿命,计算了晶体吸收峰的吸收线宽和吸收截面.研究发现,相对于其他两个偏振轴方向,D₁方向在790nm处出现较强的吸收峰, 关键词： 2SiO₅')" href="#">Tm:Y₂SiO₅ 单斜晶系 吸收光谱 荧光光谱     

稀土永磁薄膜材料

简要地介绍在纳米复合稀土永磁薄膜材料、各向异性稀土永磁薄膜材料方面的进展。在纳米复合稀土永磁薄膜材料中实现磁性交换耦合和剩磁增强效应，系统地研究了其结构与磁性的关系。制备成功高磁能积的各向异性稀土永磁薄膜材料，比较了Ti或Mo缓冲层对Nd-Fe-B薄膜的表面形貌、磁畴结构和磁性能的影响。发现薄膜的表面形貌强烈地依赖于缓冲层的厚度。由于它极大地影响薄膜的成分，溅射速率被证明是控制薄膜的显微结构、表面形貌和磁性能的一个重要因素。在微磁学模型的基础上，通过分析从5到300K的矫顽力温度依赖关系。研究了各向异性Pr-Fe-B薄膜的矫顽力机制。在晶粒表面，由于磁各向异性的降低和局域退磁场的提高导致的反转畴的形核被确定为控制各向异性Pr-Fe—B薄膜的磁化反转过程的首要机制。     

Microstructure and magnetic properties of NdFeB alloys by co-doping alnico elements

Elements of alnico 8 are added into Nd-Fe-B alloys fabricated by rapid solidification method. It is observed that the magnetic properties at high temperature improved by small addition of alnico elements. The Curie temperature of the alloys increased from 580 K for standard alloy to 639 K by 20% addition of alnico 8 elements. The spin reorientation temperature decreased from 133 K to 104 K. The TEM analysis showed that elements of alnico 8 refine the microstructure of Nd-Fe-B ribbons. The STEM analysis confirmed the heterogeneous distribution of Nd, Fe, Cu, Al, Ni and homogeneous distribution of Ti, Nb and Co. The boundaries of nano grains contain more than 70% ferromagnetic elements, ensuring strong inter-grain coupling among the grains.     

Temperature distribution and its influence on microstructure of Mg–3Sn–1Mn alloy during rheo-rolling process

In this paper, an innovative semisolid rheo-rolling process of Mg–3Sn–1Mn alloy was proposed; the temperature distribution and its influence on microstructure of Mg–3Sn–1Mn alloy during the semisolid rheo-rolling process were studied. The alloy temperature decreased gradually from the entrance to the exit of the slope plate, and the alloy velocity increased gradually. The temperature of the alloy near the slope plate surface was lower than that of melt surface. The alloy temperature decreased gradually from the entrance to the exit of the roll gap. In the roll gap, the nearer the roll was, the lower the alloy temperature was. With the increment of casting temperature, the semisolid zone increased and moved forward from the filling mouth to the exit of the roll gap. When the casting temperature was 670°C and the roll speed was 0.052?m/s, Mg–3Sn–1Mn alloy strip with good surface quality was obtained. Homogeneous microstructure was obtained. Mechanical properties of the present product at room temperature or 150°C are higher than that of Mg–3Sn–1Mn–0.87Ce prepared by casting.     

Effect of hot deformation temperature on the magnetic and mechanical properties of Nd-Fe-B magnets prepared by spark plasma sintering

The magnetic and mechanical properties of Nd-Fe-B magnets at different hot deformation temperatures have been investigated. The results showed that the optimum magnetic and mechanical properties and the highest crystallographic alignment of Nd-Fe-B magnets were obtained at 700 °C, and the possible reasons were analyzed. The microstructures show that abnormal grain growth is not observed at 650 °C; there exist many small spherical grains, and these small grains do not align during die upsetting. The average size of the grains and the volume fraction of coarse grains increase with increase in deformation temperature. The coarse grains do not align during die upsetting, and the non-alignment regions enlarge with increase in deformation temperature.     

Microstructure,texture and magnetic properties of strip-cast 1.3% Si non-oriented electrical steels

In this work, the evolution of microstructure, texture and magnetic properties of non-oriented 1.3% silicon steel processed using the twin-roll strip casting was investigated, especially under different solidification structures. A number of microstructures about the as-cast strips show that the initial solidification structure of casting a strip can be controlled by the melt superheats. The microstructures with the average grain size of ∼100–400 μm can be obtained in strips when the melt superheats are from 20 to 60 °C. A nearly random, diffuse, homogeneous texture under a low melt superheat, but comparatively developed {100} oriented grains are formed under a high melt superheat through the cast strip thickness. The relatively low core loss and high magnetic induction can be obtained in the cold rolled and annealed sheets when increasing the initial grain size of cast-strip. The textures in annealed sheets with coarse initial grain size are characterized by the relatively strong Goss component and {001} fiber but weak γ-fiber component, which lead to the high permeability.     

Study of high-coercivity sintered NdFeB magnets

Magnetic powders for sintered NdFeB magnets have been prepared by using an advanced processing method including strip casting, hydrogen decrepitation, jet milling and rubber isotropic press. The effects of Dy, Ga and Co addition on the microstructure and magnetic properties of sintered magnets have been investigated. By adopting a suitable component ratio and adjusting proper technological parameters, we have prepared high-coercivity sintered NdFeB magnets with hard magnetic properties of _jH_c=25.6 kOe, B_r=13.2 kG and (BH)_max=39.9 MGOe. The temperature coefficient of coercivity of the magnets (between 20 and 150 °C) is –0.53%/°C. The magnetic properties at high temperature satisfy the needs of permanent magnet motors.     

用元胞自动机方法模拟镁合金薄带双辊铸轧过程凝固组织

用元胞自动机方法模拟铸轧凝固组织,采用有限元方法模拟铸轧过程中熔池内部的宏观传输现象,将二者耦合模拟了镁合金铸轧薄带凝固过程中晶粒的形核与长大过程.阐明了薄带铸轧工艺过程中的主要工艺参数（浇注温度、铸轧速度等）对镁合金薄带凝固组织中晶粒大小、取向等的影响规律.这为通过工艺优化来控制铸轧薄带的凝固组织提供了理论依据. 关键词： 双辊铸轧 镁合金 凝固组织 元胞自动机     

Effect of die-upset level on the mechanical properties and microstructure of Nd-Fe-B magnets prepared by spark plasma sintering

The mechanical properties and microstructure of Nd-Fe-B magnets produced at various die-upset levels have been investigated. The results showed that the Vickers hardness and the fracture toughness of Nd-Fe-B magnets first increased, and then rapidly decreased with the increase in die-upset level. The optimum Vickers hardness and the fracture toughness were obtained at the die-upset level of 40%. The peak intensity of the (1 0 5) peak is the maximum value, the relative intensities of the (2 1 2), (2 1 4) and (3 1 4) peaks decline and the relative intensity of the (0 0 6) peak increases with the increase in die-upset level. The microstructures show that the variation in the size of small spherical grains is not obvious, and the volume fraction of small spherical grains declines gradually with the increase in die-upset level.     

Neodymium-iron-boron permanent magnets

Permanent magnet research and technology have been propelled into a new era by the rare earth-iron-boron materials, R₂Fe₁₄B. Energy products surpassing all previous values have been attained in magnets based on Nd₂Fe₁₄B, the prototypical compound. In this review we place Nd-Fe-B in the historical context of permanent magnet evolution, summarize the intrinsic properties of the R₂Fe₁₄B phases, and discuss the properties of practical Nd-Fe-B magnets produced by the two methods in present commercial use.