注入Mo 在Zr57Nb5Cu15.4Ni12.6Al10非晶合金中的扩散

通过二次离子质谱仪（SIMS）研究了Mo在Zr₅₇Nb₅Cu_15.4Ni_12.6Al₁₀非晶合金中的扩散，并计算出其扩散激活能Q和前置系数D₀分别为1.95 eV和1.13×10^-5m²s^-1.根据Stokes-Einstern关系式研究了玻璃转变温度以下593—673 K之间Zr₅₇Nb 关键词： 扩散 离子注入 二次离子质谱（SIMS） 黏滞特性     

高压下Co在Zr46.755Ti8.25Cu7.5Ni10Be27.5大块金属玻璃过冷液相区中的扩散

通过离子注入结合二次离子质谱分析方法,研究了高压下Co在Zr46.75Ti8.25Cu7.5Ni1oBe27.5大块金属玻璃过冷液相区中的扩散行为.在603 K时,Co在Zr46.75Ti8.25Cu7.5Ni10Be27.5大块金属玻璃中的扩散系数随压力的增大而增大,其扩散激活体积ΔV*=-1.236Ω,Ω是合金的平均原子体积.结果表明,在热平衡状态下Co在Zr46.75Ti8.25Cu7.5Ni10Be27.5大块金属玻璃中的扩散是通过间隙机理进行的.     

高压下Co在Zr46．75Ti8．25Cu7．5Ni10Be27．5大块金属玻璃过冷液相区中的扩散

通过离子注入结合二次离子质谱分析方法 ,研究了高压下Co在Zr4 6 .75Ti8.2 5Cu7.5Ni1 0 Be2 7.5大块金属玻璃过冷液相区中的扩散行为 .在 6 0 3K时 ,Co在Zr4 6 .75Ti8.2 5Cu7.5Ni1 0 Be2 7.5大块金属玻璃中的扩散系数随压力的增大而增大 ,其扩散激活体积ΔV =- 1.2 36Ω ,Ω是合金的平均原子体积 .结果表明 ,在热平衡状态下Co在Zr4 6 .75Ti8.2 5Cu7.5Ni1 0Be2 7.5大块金属玻璃中的扩散是通过间隙机理进行的     

块体非晶合金 Zr55Cu30Al10Ni5 结构弛豫的研究

应用同步辐射小角x射线散射和差示扫描量热分析对块体非晶合金Zr55Cu30Al10Ni5结构弛豫进行了研究.实验结果表明:经340℃、不同时间退火后的非晶内部的电子密度涨落随退火时间的延长先增大而后减小;玻璃转变温度附近焓弛豫峰的表观激活能则随退火时间的延长先减小而后增大.结果反映了随退火时间的延长,块体非晶合金内部类液体区不断减少及类固体区不断增加的过程.     

用原位x射线小角散射研究块体非晶合金Zr55Cu30Al10Ni5的结构弛豫

应用同步辐射x射线小角散射法在原位对块体非晶合金Zr55Cu30Al10Ni5在等温退火过程中的微结构变化进行研究.实验表明:在等温退火过程中电子密度涨落反映了晶化之前的结构弛豫过程;在一定的退火温度下、随退火时间的增加,拓扑短程序弛豫与化学短程序弛豫之间存在一个电子密度均匀化的过程;导致这两种弛豫过程转变的退火时间与退火温度有关,温度越高,所需的退火时间越短.     

退火态Zr55A110Ni5Cu30块体非晶合金在轧制过程中的自由体积演化

将Zr55All0Ni5Cu30块体非晶合金在715K等温退火30min,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．     

Low temperature dependence of elastic moduli and internal friction for the glassy alloy Zr55Cu30Al10Ni5

Longitudinal and transverse wave velocities, eight kinds of elastic parameters, and dilational and shear internal frictions of Zr₅₅Cu₃₀Al₁₀Ni₅ glassy alloy were simultaneously measured as a function of temperature in the range from 77 to 373 K, using an ultrasonic pulse method. The inflections at around 150 K for wave velocities, anisotropy factor and Poisson's ratio, and the 150 K peak of shear friction seem to correspond to one topological change (pseudo‐transition) associated with an interatomic readjustment or vacancy rearrangements. The behaviors from 77 to 125 K and 125 to 373 K are due to thermal relaxation of squeezed free volumes and entropy elasticity associated with vibrational motions of clusters, respectively, accompanied by an increase in atomic distance. (© 2007 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Isothermal creep of bulk glassy Zr52.5Ti5Cu17.9Ni14.6Al10 below T g

The results of an isothermal creep investigation of Zr_52.5Ti₅Cu_17.9Ni_14.6Al₁₀ bulk metallic glass at temperatures below the glass transition temperature are presented. The long-time (t > (2–4) × 10³?s) creep regularities were found to be the same as those known for ribbon metallic glasses, in spite of the pronounced difference in the production quenching rates. It is argued that creep behaviour of bulk metallic glass is determined by the rate of irreversible structural relaxation. The apparent activation energy spectrum reconstructed from isothermal creep measurements agrees well with that determined from linear heating creep data.     

The Kinetic Theory of Growth of Zr-Sn Diffusion Layers on Zr55Cua0Al10Ni5 Metallic Glass

The growth kinetics of the intermetallic compound layer between molten pure Sn and Zr55Cu30AlloNi5 bulk metallic glass （BMG） is mainly controlled by the diffusion mechanism at stage I at which the value of the time exponent is approximately 1/2, also there is unusual or unique stage Ⅱ whose time exponent of the growth is suppressed to 1/3. It is deduced that phase transition such as nucleation, coalescence occurring in the vicinity of the interface of the diffusion layer within the BMG and the average size growing as one-third power of time, called the Lifshitz-Slezov law. A more elegant means of attack is based upon the Fokker-Planck approach, which permits us to calculate directly the probability of the distribution of steady-state thickness fluctuations. Physical implications of the analytical results also give the one-third power of time of distance scale. The transmission of Sn particles through a disorder system of the BMG, scattered by the local fluctuation levels, is the source of the time exponent from 1/2 to 1/3 as a macroscopic cumulative effect.     

Nanocrystal formation in gas-atomized amorphous Al85Ni10La5 alloy

An Al₈₅Ni₁₀La₅ amorphous alloy, produced via gas atomization, was selected to study the mechanisms of nanocrystallization induced by thermal exposure. High resolution transmission electron microscopy results indicated the presence of quenched-in Al nuclei in the amorphous matrix of the atomized powder. However, a eutectic-like reaction, which involved the formation of the Al, Al₁₁La₃, and Al₃Ni phases, was recorded in the first crystallization event (263°C) during differential scanning calorimetry continuous heating. Isothermal annealing experiments conducted below 263°C revealed that the formation of single fcc-Al phase occurred at 235°C. At higher temperatures, growth of the Al crystals occurred with formation of intermetallic phases, leading to a eutectic-like transformation behaviour at 263°C. During the first crystallization stage, nanocrystals were developed in the size range of 5 ～ 30 nm. During the second crystallization event (283°C), a bimodal size distribution of nanocrystals was formed with the smaller size in the range of around 10 ～ 30 nm and the larger size around 100 nm. The influence of pre-existing quenched-in Al nuclei on the microstructural evolution in the amorphous Al₈₅Ni₁₀La₅ alloy is discussed and the effect of the microstructural evolution on the hardening behaviour is described in detail.     

Oxidation of Zr 55 Cu 30 Al 10 Ni 5 bulk metallic glass in the glassy state and the supercooled liquid state

The oxidation behavior of Zr₅₅Cu₃₀Al₁₀Ni₅ bulk metallic glass in air in the glassy state and the supercooled liquid state was studied using a thermogravimetric analyzer, X-ray diffraction and scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy. It was found that the isothermal oxidation kinetics of the glass in both states follows a two-step parabolic law. The oxidation process is governed by the inward diffusion of oxygen and the outward diffusion of Cu, with the first being dominant. The faster diffusion of atoms in the supercooled liquid state led to a network precipitation of crystalline Cu, and the crystallization that occurred in this state in the later stage of oxidation caused a reduction in the rate of oxidation. Two types of Zr oxides, i.e. t-ZrO₂ and m-ZrO₂, were formed in the oxidation process in both the glassy and supercooled liquid states. t-ZrO₂ mainly formed in the outer layer of the oxide scale, while m-ZrO₂ tended to form in the inner layer. The formation of m-ZrO₂ is possibly activated by the crystallization of the glass near the interface of the oxide scale and the substrate alloy. In addition, oxidation also has a substantial effect on the formation of crystallized phases. The formation of a Cu-rich phase of Cu₁₀Zr₇ occurred in the oxidizing atmosphere. However, the formation of a Zr-rich phase of Zr₂(Ni, Cu) mainly took place in a vacuum environment. PACS 81.05.Kf; 81.65.Mq; 64.60.-i     

A CEMS investigation of57Fe implanted in Al and Cu at low temperature

A new type of CEM-spectrometer allows in situ measurements on metal foils implanted at low temperatures. It has been used to study defect association and clustering of⁵⁷Fe in Al and Cu. For⁵⁷FeAl, the substitutional fraction (f _s) in samples implanted at 120 K is somewhat smaller than expected for a random impurity distribution but much larger than after room temperature implantation. For⁵⁷FeCu,f _s for samples implanted at 120 K is less than 0.5 of the value expected for a random distribution and it falls to zero after annealing at 600 K, where more extensive Fe clustering occurs. Vacancy trapping in stage III does not contribute significantly to the observed defect sites.     

Shear Modulus Relaxation and Thermal Effects in a Zr65Cu15Ni10Al10 Metallic Glass after Inhomogeneous Plastic Deformation

Journal of Experimental and Theoretical Physics - The shear modulus and enthalpy relaxation in a deformed Zr65Cu15Ni10Al10 metallic glass has been investigated. It has been established that...