过冷Ni-P合金的凝固行为

以揭示共晶系合金在不同过冷度下凝固时初生相的选择规律和凝固组织形成机理为目的, 用熔融玻璃净化和循环过热相结合的方法, 将Ni_100-xP_x(x=18, 19, 19.6, 20, 21, 原子百分比)合金过冷至平衡液相线以下不同的温度, 用高速红外测温仪记录了试样的凝固冷却曲线, 详尽分析了试样的凝固组织.结果表明, 过冷Ni-P合金快速凝固过程中析出的初生相为α-Ni/Ni₃P耦合共晶时, 整个凝固过程中仅出现一次再辉, 在所形成的异常共晶组织中α-Ni颗粒大小分布均匀;而当某一共晶相优先析出时, 另外一相需要在残留液相中重新形核, 致使凝固过程中出现两次再辉, 相应形成颗粒相大小截然不同的两类异常共晶组织;据此绘制了Ni-P合金初生相为共生共晶的区域. Ni-P合金中α-Ni的生长动力学明显快于Ni₃P, 使得在大过冷度下过共晶合金也以α-Ni作为初生相进行凝固.     

Gd基非晶与Gd纳米晶复合结构的磁制冷效应

通过调控冷却速率和成分配比, 制备出了Gd基非晶与Gd纳米晶的复合材料. 采用X射线衍射、热分析、原子力和磁力显微镜对其微结构进行表征, 从多个角度证实了非晶/纳米晶的复合结构. 磁性测试结果表明: 内生的纳米晶颗粒能有效改善非晶基体的磁熵效应, 相对于Gd基块体纯非晶和Gd单质, 复合体系的磁制冷效率大幅提高达到了10³ J. kg^-1; 磁熵变化峰Δ S _m的半高宽超过纯Gd的5倍; 最大磁熵变区出现平台区,但Δ S _m峰值有待于进一步提高. 理论分析表明, 复合结构中超顺磁纳米团簇的形成有效提高了磁制冷温区和效率. 结合磁滞小和电阻大等优点, Gd基非晶/Gd纳米晶复合材料具有一定的发展潜力.     

中频磁脉冲处理Fe52Co34Hf7B6Cu1非晶合金的正电子湮没研究

对熔体急冷法制备的非晶合金 Fe₅₂Co₃₄Hf₇B₆Cu₁ 进行了不同频率的中频磁脉冲处理, 用透射电子显微镜、穆斯堡尔谱、正电子湮没寿命谱等方法研究了处 理前后试样的微观结构及结构缺陷变化. 结果表明,经中频磁脉冲处理后,样品发生了部分纳米晶化, 晶化量随磁脉冲频率增加而增加, 当磁脉冲频率为2000 Hz时, 晶化量达33.1%; 在淬态非晶样品中, 正电子在类单空位中的湮没寿命τ₁为150.5 ps, 强度 I₁为77.7%, 在微孔洞中的湮没寿命τ₂为349.7 ps,强度I₂为22.3%; 随磁脉冲频率的增加, τ₁, τ₂值呈现减小的变化趋势, 与淬态非晶相比, I₁有所增加, I₂下降, τ₁, τ₂的平均值τ大幅降低.     

低扩散系数对Pd77Cu6Si17合金易非晶化的影响

采用激光熔凝技术,研究了Pd₇₇Cu₆Si₁₇合金快速凝固组织的演变规律.研究表明:随着生长速度的增大,Pd₇₇Cu₆Si₁₇合金晶体生长组织形貌发生了Pd₃Si枝晶+共晶-ξ枝晶+共晶-共晶团簇-规则共晶-非晶的转变,共晶失稳即非晶形成的临界生长速度为6 mm/s,最小层片间距为35 nm.通过与Al-25 wt% Sm,Al-32.7     

退火态Zr55Al10Ni5Cu30块体非晶合金在轧制过程中的自由体积演化

将Zr₅₅Al₁₀Ni₅Cu₃₀块体非晶合金在715 K等温退火30 min, 引入少量纳米晶, 然后于室温以不同的应变速率进行轧制, 用差示扫描量热仪考察不同应变量样品的热稳定性和自由体积演化. 结果表明:即使轧制到95%的最大应变量, 样品的热稳定性也几乎没有发生改变. 在各种应变速率下, 随着应变量的增加, 自由体积含量持续上升. 但随着应变速率的增加, 相同应变量下自由体积的含量先上升后降低, 该规律与单一非晶态结构合金在塑性变形过程中自由体积的变化情况截然不同.     

机械合金化Fe-B合金的M?ssbauer谱研究

用M?ssbauer谱分析方法研究了配料原子比为Fe₇₀B₃₀,Fe₅₅B₄₅和Fe₃₀B₇₀各样品经机械合金化所形成的合金相的结构特点及其非晶相在退火过程中的转变。揭示出此类非晶相与相应的Fe-B化合物之间存在一定程度的联系。     

七种非晶铁磁合金的体积磁致伸缩研究

 强制体积磁致伸缩的数量级极小（10^-10~10^-9[(10³/4π)(A/m)]^-1），如通过测量三个互成直角方向的线磁致伸缩（10^-6[(10³/4π)(A/m)]^-1）再正负迭加则很难测准。本文利用热力学关系：(dω/dH)_T,p=-(dM_s/dp)_T,H，用静水压法在0.000 1~2.4 GPa范围测得七种非晶合金Fe_81.6Si_4.6B_13.8、Fe_46.3Co_0.03Ni_46.5Si_3.75V_0.92B_2.5、Fe₇₅Cr₅Si₅B₁₅、Fe_73.9Co_8.3Si_4.4B_13.4、Fe₇₅Ni₅Si₅B₁₅、Fe_78.75Cu_1.25Si₅B₁₅和(Fe_0.85Co_0.15)₈₂Cu_0.4Si_4.4B_13.2的强制体积磁致伸缩及其随静水压p的变化。结果表明：（1）其中六种属于第一类压磁效应。(dω/dH)_T,p在大部分压力下为正，p增加时M_s不断减小；(dω/dH)_T,p仅在几个狭窄的压力范围为负。可归因于磁性原子与非磁性原子的化学短程序在压力下的变化。（2）非晶合金Fe_78.75Cu_1.25Si₅B₁₅属于第二类压磁效应。(dω/dH)_T,p在绝大部分压力下为负。M_s反常升高与Cu的特殊作用有关。     

非晶硒合金膜载流子特性研究

在X射线医学成象和无损检测方面,非晶硒现在被认为是最有前途的探测材料之一,其我流子特性对应用至关重要。本文描述了非晶硒(掺砷)合金材料的制备和合金膜的真空蒸镀制备方法,并用滚越时间方法测量了载流于的漂移迁移率和寿命。讨论了一些对非晶硒合金膜性能有重要影响的因素。实验表明,制备方法对非晶硒合金膜的性能有显着影响。可以看到,在低电场下被陷讲捕获的我流子形成的空间电荷对测量我流永寿命和对光的敏感度有很大影响.实验得到了良好的结果,在10v/μm场强下,空穴迁移长度约1500μm,电子迁移长度约1200μm.该结果表明,可以用几百微米厚的非晶硒合金膜作为X射线探测或成象的光电导接受器。     

Magnetic behaviour of TbMnFe

Neutron diffraction and M?ssbauer measurements have been carried out on the cubic Laves phase intermetallic TbMnFe. The magnetic moment on the transition metal atom is found to be low, 0.2μ _B, at room temperature. This moment is temperature independent down to 10 K. Magnetic moment on the rare earth atom varies from 2.5μ _B at 296 K to 7.27μ _B at 10 K. M?ssbauer spectra recorded at 298 K and 78 K have magnetic character but there is a large distribution of hyperfine field values. Both these features arise due to magnetic frustration created in the sample due to the competing ferro and antiferromagnetic interactions between the transition metal atoms.     

钆含量对Fe-B-Nb-Gd非晶合金磁学性能和氧化机制的影响规律

研究了Gd含量对(Fe₇₃B₂₂Nb₅)_100-xGd_x(x=0,0.5,1.0,1.5,2.0)合金非晶形成能力、热稳定性和磁学性能的影响规律,并对比分析了非晶氧化机制.通过添加Gd元素,合金的原子尺寸差超过13%,构型熵增大了30%,提升了合金的非晶形成能力.随着Gd含量的增大,过冷液相区范围达到73 K,热稳定性得到明显增强.Gd元素导致合金局部各向异性受到限制,准位错偶极子型缺陷密度降低.这有效减少了阻碍磁畴壁旋转的钉扎位点,提高合金软磁性能.此外,Gd元素使得非晶在氧化过程中对温度的变化更为敏感,达到最大氧化速率的温度降低了15 K,但是并未恶化其抗氧化性能.Gd原子受结合能影响向表层迁移,形成的富Gd氧化物填充了表层缺陷,占据了大量顶部空间,合金表面附近的结构更加致密.这种结构减少了氧原子通过微观组织界面进行扩散的通道,有助于增强抗氧化性能.     

铁基软磁非晶/纳米晶合金研究进展及应用前景

非晶合金通常是将熔融的金属快速冷却、通过抑制结晶而获得的原子呈长程无序排列的金属材料.由于具有这种特殊结构,铁基软磁非晶合金具有各向同性特征、很小的结构关联尺寸和磁各向异性常数,因而具有很小的矫顽力H_c,但可和晶态材料一样具有高的饱和磁感强度B_s.优异的软磁性能促进了铁基软磁非晶合金的应用研究.目前,铁基软磁非晶/纳米晶合金带材已实现大规模工业化生产和应用,成为重要的高性能软磁材料.本文回顾了软磁非晶合金的发现和发展历程,结合成分、结构、工艺对铁基非晶/纳米晶合金软磁性能的影响,介绍了相关基础研究成果和工艺技术进步对铁基软磁非晶/纳米晶合金研发和工业化应用的重要贡献.并根据结构、性能特征将铁基软磁非晶合金研发与应用分为三个阶段,指出了目前铁基软磁非晶合金研发与应用中面临的挑战和发展方向.     

Study of structural and magnetic properties of Fe_(80)P-_9B_(11) amorphous alloy by ab initio molecular dynamic simulation

The structural and magnetic properties of Fe_(80)P_9B_(11) amorphous alloy are investigated through ab initio molecular dynamic simulation. The structure evolution of Fe_(80)P_9B_(11) amorphous alloy can be described in the framework of topological fluctuation theory, and the fluctuation of atomic hydrostatic stress gradually decreases upon cooling. The left sub peak of the second peak of Fe–B partial pair distribution functions(PDFs) becomes pronounced below the glass transition temperature, which may be the major reason why B promotes the glass formation ability significantly. The magnetization mainly originates from Fe 3d states, while small contribution results from metalloid elements P and B. This work may be helpful for developing Fe-based metallic glasses with both high saturation flux density and glass formation ability.     

Role of compositional changes on thermal,magnetic,and mechanical properties of Fe-P-C-based amorphous alloys

This work aimed to tune the comprehensive properties of Fe-P-C-based amorphous system through investigating the role of microalloying process on the crystallization behavior,glass forming ability(GFA),soft magnetic features,and mechanical properties.Considering minor addition of elements into the system,it was found that the simultaneous microalloying of Ni and Co leads to the highest GFA,which was due to the optimization of compositional heterogeneity and creation of near-eutectic composition.Moreover,the FeCoNiCuPC amorphous alloy exhibited the best anelastic/viscoplastic behavior under the nanoindentation test,which was owing to the intensified structural fluctuations in the system.However,the improved plasticity by the extra Cu addition comes at the expense of magnetic properties,so that the saturation magnetization of this alloying system is significantly decreased compared to the FeCoPC amorphous alloy with the highest soft magnetic properties.In total,the results indicated that a combination of added elemental constitutes,i.e.,Fe69Co5Ni5Cu1P13C7 composition,provides an optimized state for the comprehensive properties in the alloying system.     

预退火时间对Fe_(80.8)B_(10)P_8Cu_(1.2)非晶合金微结构及磁性能的影响

研究了预退火时间对Fe_(80.8)B_(10)P_8Cu_(1.2)非晶合金微结构及磁性能的影响.穆斯堡尔谱研究表明:在660 K的预退火温度下,随着预退火时间的增加,Fe原子不断富集,非晶基体中的类Fe_3B化学短程有序结构向类Fe B结构转变,并且非晶基体中Fe第一近邻壳层中Cu原子的逐渐脱离以及Fe-P配位键数量的明显减少可间接表征CuP团簇的形成过程.同时,本研究通过调节预退火时间来调控非晶基体中CuP团簇和Fe团簇的数量,促进后续退火晶化过程中α-Fe纳米晶相的析出,并细化纳米晶尺寸,从而获得综合磁性能更加优异的非晶/纳米晶软磁合金.     

STRUCTURE AND MAGNETIC PROPERTIES OF LaCo13-BASED ALLOYS

The structure and magnetic properties of two series of LaCois-based alloys, LaCo_13-xFe_x(0≤x≤6) and La_1-xR_x(Co, Fe)₁₃ (x=0.1,0.2; R=Y, Ge, Pr, Nd Sm, Gd, Tb, Dy, Ho, Er, and Yb), are studied by X-ray diffraction and magnetic mea- surements. In the above-mentioned composotions, all the samples display a structure of NaZn₁₃ type (space group: Fm3c). In LaCo_13-xFe_x system, as the iron content increases, its Curie temperature decreases, while thc magnetic moment per 3d atom increases. This may be explained by a rigid band model. In the other alloy system, the Curie temperature goes through a maxium at R=Gd, and this reflects the influ- ence of R - T interaction. It is also observed that saturation magnetization varies with R and gets lower when R is a heavy rare earth element. The contribution of R is close to that of a free-ion moment. La_0.9Pr_0.1Co₉Fe₄ has the largest value 29μ_B/f.u.     

FeSiBP bulk metallic glasses with high magnetization and excellent magnetic softness

Fe-based amorphous alloy ribbons are one of the major soft magnetic materials, because of their superior magnetic properties such as the relatively high saturation magnetization (J_s) of 1.5–1.6 T and good magnetic softness. However, the preparation of the ordinary amorphous magnetic alloys requires cooling rates higher than 10⁴ K/s due to the low glass-forming ability (GFA) and thus restricts the material outer shape. Recently, Fe-metalloid-based bulk metallic glasses (BMGs) containing glass-forming elements such as Al, Ga, Nb, Mo, Y and so forth have been developed. These alloys have high GFA, leading to the formation of BMG rod with diameters of mm-order. However, the glass-forming metal elements in BMGs result in a remarkable decrease in magnetization. Basically, J_s depends on Fe content; hence, high J_s requires high Fe content in the Fe-based amorphous alloys or BMGs. On the other hand, high GFA requires a large amount of glass-forming elements in the alloys, which results in lower Fe content. Therefore, in substances, the coexistence of high J_s and high GFA is difficult. Since this matter should be immensely important from academia to industry in the material field, a great deal of effort has been devoted; however, it has remained unsolved for many years. In this paper, we present a novel Fe-rich FeSiBP BMG with high J_s of 1.51 T comparable to the ordinary Fe–Si–B amorphous alloy now in practical use as well as with high GFA leading to a rod-shaped specimen of 2.5 mm in diameter, obtained by Cu-mold casting in air.     

铀基非晶合金的发展现状

铀基非晶合金是非晶家族中的特殊成员,受限于铀元素的高活性与放射性特点,目前这类非晶材料的研究极不充分.本文结合非晶合金的最新发展动态简要介绍了铀基非晶发展历史,较系统地总结了本团队的最新铀基非晶研究工作:首先较详细地介绍了新型铀基非晶的制备技术、成分体系、形成规律与晶化行为,澄清了其形成机制与热稳定性;结合高分辨电镜分析展示了其微观结构特点;采用纳米压痕技术揭示了这类非晶的微纳力学性能;利用电化学测试方法评估了其耐腐蚀性能.这些结果丰富了非晶材料的内涵,有助于深化对非晶物理基础科学问题的理解,并推动新型铀合金材料的发展,为这种材料的潜在工程应用奠定了基础.     

New Fe-based amorphous compound powder cores with superior DC-bias properties and low loss characteristics

The Fe–Si–B–P–C metallic glassy alloys exhibit relatively high glass forming ability (GFA) as well as good soft magnetic properties such as ultra-low core loss. In this paper, the metallic glassy alloy (Fe_0.76Si_0.09B_0.10P_0.05)₉₈C₂ has been newly developed. A new Fe-based amorphous compound powder was prepared from FeSiB amorphous powder by crushing the amorphous ribbons as the first magnetic component and FeSiBPC metallic glassy powder by water atomization as the second magnetic component. Subsequently by adding organic and inorganic binders to the compound powder and cold pressing, the new Fe-based amorphous compound powder cores were fabricated. These new Fe-based amorphous compound powder cores combine the superior DC-bias properties and the excellently low core loss. The core loss of 453 kW/m³ at B_m=0.1 T and f=100 kHz was obtained when the mass ratio of FeSiB/FeSiBPC equals 3:2, and meanwhile the DC-bias properties of the new Fe-based amorphous compound powder cores just increased by 10% at H=100 Oe for μ=60 compared to those of the FeSiBPC powder cores. In addition, with the increase in the content of the FeSiPC metallic glassy powder, the core loss tends to decrease.     

Magnetic properties of Fe and Tb in TbxFe1−x amorphous films studied with soft X-ray circular and linear dichroism

We have used linearly and circularly polarized X-rays to determine the magnetic properties of several Tb_xFe_1−x amorphous films. Absorption measurements on the M_4.5 edges of Tb and the L_2.3 edges of Fe allowed us to obtain information about the size and direction of local magnetic moments. Our results confirm that linear dichorism in rare earth M_4.5 edges can give useful information about both crystal field and magnetic effects.     

Amorphous transformation of ternary Cu45Zr45Ag10 alloy under microgravity condition

The influences of undercooling rate and cooling rate on the microstructural evolution of ternary Cu₄₅Zr₄₅Ag₁₀ alloy using single-roller melt spinning and drop tube are investigated. The rapidly quenched alloy ribbons achieve a homogeneous glass structure. The microstructure of the droplets transforms from the Cu₁₀Zr₇ dendrites plus (Cu₁₀Zr₇+AgZr) eutectic into Cu₁₀Zr₇ dendrite with the decrease of droplet diameter. As the diameter decreases to 180 μm, the Cu₄₅Zr₄₅Ag₁₀ alloy changes from crystal to amorphous structure, showing that the cooling rate is not the only influence factor and the undercooling play a certain role in the forming of the amorphous alloy at the same time under microgravity condition.