第一性原理研究合金元素对逆变奥氏体在Cu沉淀上异质形核的影响

超高强度马氏体钢的力学性能强烈依赖于逆变奥氏体的形状、尺寸及含量.通常,提高逆变奥氏体含量,有助于改善超高强度钢的塑韧性.对含Cu马氏体淬火钢时效处理时, Cu粒子会在马氏体组织边界沉淀,并作为质点促进逆变奥氏体形核.为了探索不同合金元素对逆变奥氏体在Cu沉淀上异质形核的影响,本文利用第一性原理方法研究了合金元素X (X=Cr, Al, Mo, W, Ni, Co, Mn)对Cu/γ-Fe界面性质的影响,并分析了合金原子替换界面处Cu和Fe原子前后界面的黏附功、界面能和电子结构.研究结果表明,合金元素Cr,Mo, W, Mn替换Cu/γ-Fe界面处Cu原子时, Cu/γ-Fe界面处产生强烈的X—Fe共价键,黏附功增大且界面能减小,显著提高界面稳定性,促进γ-Fe在Cu沉淀上异质形核.而替换界面处Fe原子时,界面稳定性变化很小,掺杂原子与相邻的其他原子成键较弱.     

掺杂对Ni51.5 Mn25 Ga23.5相变行为和磁性的影响

通过往母合金Ni51.5Mn25Ga23.5掺入7种ⅣA,ⅤA和ⅥA过渡族元素得到系列掺杂合金Ni51.5Mn23M2Ga23.5.M为掺杂元素.实验结果表明,掺杂效应一般引起马氏体相变温度的下降,其中,W的掺杂是7种元素中唯一使相变温度升高的特例,且出现了中间马氏体相变.同时,在价电子浓度不变的情况下,相变更敏感于原子的尺度效应.实验发现,Ti,Zr,Hf,V四种非磁性元素的掺杂使Mn原子磁矩减小,而Nb,Ta,W三种非磁性元素的掺杂却可以明显地增大Mn原子的磁矩.在考察掺杂效应时,不能忽略马氏体相变引起的晶格变化对材料磁性的影响.     

合金工具钢的X射线荧光光谱分析

本文介绍了用X射线荧光光谱仪测量合金工具钢中Mn,Cr,V,W,Ti,Nb,Co,Zr,Ni,Mo,S,P,Si和Cu十四个元素的方法,度样经砂轮抛光酒精棉擦拭后直接测量,结果与内控标样吻合,方法的精密度（n=8)除W,Tr,Nb和Zr外,大多数元素在0．13－9．59％,适应铬钒钢,锰钢,模具钢,中低合金钢等多种钢种的分析。     

金属元素掺杂对TiAl合金力学性能的影响

利用基于密度泛函理论的第一性原理方法研究了金属元素X (X分别表示V, Nb, Ta, Cr, Mo和W)掺杂对TiAl合金性能的影响. 研究发现, 掺杂可以有效减小合金的各向异性, 增强Ti-Al 原子间的相互作用, 同时增强金属键性, 减弱共价键性, 有利于塑性变形. 在相同的压力下, 不同的掺杂浓度和掺杂元素对体积的影响不同. 通过计算不同掺杂体系的弹性常数、体弹模量和剪切模量可知: 当掺杂浓度为6.25%时, 相对于V, Nb和Ta, Cr, Mo和W掺杂能较好地改善TiAl金属间化合物的韧性; 当掺杂浓度为12.5%时, 相对其他掺杂元素Mo的韧化作用最强. 从Mo掺杂后TiAl体系的分波态密度和电荷密度图, 发现Mo和Ti 原子发生强烈的s-s, p-p, d-d电子相互作用, 有效地束缚了合金中Ti和Al原子的迁移, 有助于提高合金的稳定性和强度.     

X射线荧光光谱法测定不锈钢中的组分

用X射线荧光光谱法测定了不锈钢中Si、Mn、P、Cu、Ti、W、Mo、V、Ni、Cr、Nb等11种元素的含量。对磨样条件、准确度和精密度进行了实验,实验表明本方法与化学法所测结果相符。     

非晶态合金FeTmB的磁矩和居里温度

本文系统地报道单辊液淬方法制备FeTmB(Tm=Ti,V,Cr,Mn,Zr,Nb,Mo,Ta,W)非晶态合金的磁性,讨论了3d,4d,5d元素的加入对非晶态FeB合金的磁矩和居里温度的影响。实验结果表明在非晶态FeTmB合金系中Fe原子磁矩都在2.0μ_B左右。Tm原子在非晶态Fe基合金中比在相应的晶态合金中显示更强的局域特性。Tm原子的磁矩与元素的外层电子数有关,IVB(Ti),VB(V),VIB(Cr),VIIB(Mn)族原子的磁矩分别约为4,5,4,3μ_B,Tm的磁矩与铁原子磁矩反平行耦合。合金磁矩随Tm含量的变化率dμ/dx与混合模型的计算值相符合。用虚拟束缚态讨论,得到IVB(Ti),VB(V)族元素的虚拟束缚态在费密面以上,VIB(Cr),VIIB(Mn)族元素的虚拟束缚态与费密面交迭。 关键词：     

合金铸铁的X射线荧光光谱分析

探讨了用ＸＲＦ法测定合金铸铁中Ｓi、Mn、P、S、Ni、Cr、Cu、Al、Mo、V、T、Nb、Sn、W、Co１５个杂质元素的分析方法，简述了分析条件及实验方法，方法简便、快速、准确、精密度较好。     

发射光谱表观浓度法在钢铁分析中的应用

本文将“发射光谱的表观浓度法”用于钢铁样品分析,使基体元素的浓度变化影响和共存元素干扰得到综合校正,并以适当的高能予燃和低能曝光条件减轻组织结构的影响,实现了用统一的分析条件和工作曲线测定碳钢、中低合金钢和耐酸不锈钢的21种元素(C、Si、Mn、P、S、Cr、Ni、Mo、V、Cu、Al、Ti、W、Nb、B、Co、As、Pb、Zr、Zn和Sn),分析结果无需内控样校正就可获得满意的精密度和准确度,生产使用效果良好。     

掺杂对Ni51.5Mn25Ga23.5相变行为和磁性的影响

通过往母合金Ni_51.5Mn₂₅Ga_23.5掺入7种IVA, VA和VIA 过渡族元素得到系列掺杂合金Ni_51.5Mn₂₃M₂Ga_{23 .5}.M为掺杂元素.实验结果表明，掺杂效应一般引起马氏体相变温度的下降，其中，W 的掺杂是7种元素中唯一使相变温度升高的特例，且出现了中间马氏体相变.同时，在价电子 浓度不变的情况下，相变更敏感于原子的尺度效应.实验发现，Ti，Zr，Hf，V四种非磁性元 素的掺杂使Mn原子磁矩减小，而Nb，Ta，W三种非磁性元素的掺杂却可以明显地增大Mn原子 的磁矩.在考察掺杂效应时，不能忽略马氏体相变引起的晶格变化对材料磁性的影响. 关键词： NiMnGa 掺杂 马氏体相变 磁性     

十七个元素光谱定量分析

本文对发射光谱交流电弧,同时测定Pb、Sn、Ag、B,Cu、Mo、Co、Ni、Cr、V、Ti、Mn、Be、Nb、zr、Y、La 十七个易挥发、中挥发、难挥发元素的光谱定量分析方法进行了研究。     

Adhesion and bonding of the Al/TiC interface

The electronic structure and adhesion of Al/TiC(0 0 1) interface are examined by density functional theory. Our results show the preferred configuration is the Al atom above the ceramic’s metalloid atom. The calculated adhesion explains the conflicting experimental results of the W_ad from the aspect of the establishing different chemical equilibrium bonds at the different temperatures. By applying several analysis methods we have thoroughly characterized the interfacial electronic structure. For the Ti-site the interfacial Al and Ti atoms form the metal/covalent bond, while for the C-site the interfacial Al and C atoms form the polar covalent interaction. In addition, we examine the effects of Mg and Si alloying elements at the interface, and find that Mg greatly deteriorates the interface and Si slightly improves the interface. The cleavage may take place preferentially at the interface with the help of interface strain energy, especially with the addition of Mg. This is in good agreement with the experimental result.     

Effect of alloying on magnetic properties of Fe-Cr-12 wt% Co permanent magnet alloys

Effect of alloying additional elements (Al, Si, Ti, V, Ni, Cu, Zr, Nb and Mo) with Fe-22/30 wt% Cr-12 wt% Co permanent magnet alloys manufactured by magnetic aging has been systematically studied with magnetic measurements and transmission electron microscopy (TEM), on a laboratory scale. It is found that the alloying shifts the optimum Cr content to a lower lever. Ti and Si show the greatest enhancement on magnetic properties yet narrow the optimum magnetic aging temperature range. Mo, Nb and Cu, when used together with Si, promote magnetic properties and widen the optimum magnetic aging temperature range. Ni and Zr are simply magnetic diluents. V is good for the magnetic properties only at a large amount of addition. The origin of alloying effects explored by TEM microscopy is attributed to the degree of particle entanglement as well as elongation.     

Elastic properties of Nb-based alloys by using the density functional theory

A first-principles density functional approach is used to study the electronic and the elastic properties of Nb₁₅X(X = Ti, Zr, Hf, V, Ta, Cr, Mo, and W) alloys. The elastic constants c₁₁ and c₁₂, the shear modulus C', and the elastic modulus E_〈100〉 are found to exhibit similar tendencies, each as a function of valence electron number per atom (EPA), while c₄₄ seems unclear. Both c₁₁ and c₁₂ of Nb₁₅X alloys increase monotonically with the increase of EPA. The C' and E_〈100〉 also show similar tendencies. The elastic constants (except c₄₄) increase slightly when alloying with neighbours of a higher d-transition series. Our results are supported by the bonding density distribution. When solute atoms change from Ti(Zr, Hf) to V(Ta) then to Cr(Mo, W), the bonding electron density between the central solute atom and its first neighbouring Nb atoms is increased and becomes more anisotropic, which indicates the strong interaction and thus enhances the elastic properties of Nb-Cr(Mo, W) alloys. Under uniaxial 〈100〉 tensile loading, alloyed elements with less (more) valence electrons decrease (increase) the ideal tensile strength.     

Effects of alloying element on stabilities,electronic structures,and mechanical properties of Pd-based superalloys

The thermodynamic stabilities, electronic structures, and mechanical properties of the Pd-based superalloys are studied by first principles calculations. In this work, we discuss the effect of Pd-based superalloys made from Al, Si, Sc, Ti,V, Cr, Mn, Fe, Cu, Zn, Y, Zr, Nb, Mo, Tc, Hf, Ta, W, Re, Os, Ir and Pt, and we also calculate a face centered cubic(fcc)structure 2 × 2 × 2 superalloy including 31 Pd atoms and one alloying element T M(Pd_(31)TM). The mixing energies of these Pd-Based superalloys are negative, indicating that all Pd-based superalloys are thermodynamically stable. The Pd_(31)Mn has the lowest mixing energy with a value of-0.97 eV/atom. The electronic structures of the Pd-based superalloys are also studied, the densities of states, elastic constants and moduli of the mechanical properties of the Pd-based superalloys are determined by the stress-strain method and Voigt–Reuss–Hill approximation. It is found that Pd_(31)TM is mechanically stable, and Pd_(31)Tc has the largest C_(11), with a value 279.7 GPa. The Pd_(31)Cr has the highest bulk modulus with a value of299.8 GPa. The Pd_(31)Fe has the largest shear modulus and Young's modulus with the values of 73.8 GPa and 195.2 GPa,respectively. By using the anisotropic index, the anisotropic mechanical properties of the Pd_(31)T M are discussed, and threedimensional(3 D) surface contours and the planar projections on(001) and(110) planes are also investigated by the Young modulus.     

烧结Nd-Fe-B中的热力学影响

在烧结Nd-Fe-B中，各种相的形成，添加元素原子的替代、对磁体的微结构和性能的影响以 及大多数工艺与热力学都有密切联系.Al，Cu，Ga，Sn，Zn等与B均具有正的混合焓，在主相 中的浓度都很低，与富 Nd相反应改善磁体的微结构. Zi,Ti，Nb，W，Mo，V等与Nd有很大的 正的混合焓，与B具有很大的负的混合焓，能优化磁体的微结构和稀释磁体.参考热力学，系 统讨论了各种常用添加元素对烧结Nd-Fe-B的微结构、性能和制造工艺的影响. 关键词： Nd-Fe-B永磁体 混合焓 烧结     

Surface energies of the solid solutions between Ti, V, Cr, Zr, Nb, Mo, Hf, Ta, and W

The surface energy for different surface orientations of the solid solutions as a function of concentration formed by Ti, V, Cr, Zr, Nb, Mo, Hf, Ta, and W is computed and analyzed using the BFS method for alloys. Similarities and differences among the different binary alloys are examined in terms of strain and chemical effects.     

Effects of Cr and V impurities on cohesion properties of Pd/TiAl interfaces

First principles calculations reveal that for Pd/TiAl interfaces the substitution of interface Ti atoms with Cr or V atoms is energetically favorable with negative heat of formation, and could bring about a very small increase of interface bond strength, while the interstitial Cr and V atoms should be unfeasible with highly positive heat of formation and would increase the bond lengths of interface Pd–Al and Pd–Ti bonds. Calculations also demonstrate that both Cr and V would induce an increase of interface energy, suggesting that the impurity atoms of Cr or V should be reduced to a minimum level, in order to get a thermally stable Pd/TiAl interface with a longer lifetime. In addition, it is found that the substitution of V at the Pd/TiAl interfaces should be much easier than that of Cr, which is in good agreement with similar experimental observations in the literature.     

Elastic properties, thermal expansion coefficients and electronic structures of Ti0.75X0.25C carbides

Elastic properties, thermal expansion coefficients and electronic structures of Ti_0.75X_0.25C carbides (X=W, Mo, Ta, Nb, V, Hf, Zr, Cr and Al) were systematically investigated using ab initio density functional theory (DFT) calculations. The calculated elastic moduli, electronic structures and thermal expansion coefficients α(T) of pure TiC are in good agreement with experimental data and other DFT calculations. Based on a phenomenological formula, the trends of elastic properties and ductile/brittle behavior of Ti_0.75X_0.25C were analyzed. It was found that alloying elements W, Mo, Ta, Nb, V and Hf can increase elastic moduli, while Zr, Cr and Al reduce moduli. The nearly free electron model and Debye approximation were applied in the evaluation of α(T). The anharmonic effect was taken into account by including volume-dependent elastic moduli and Debye temperature. Results show that alloying additions of 3d V, 4d Zr and Mo slightly reduce α(T), while 3d Cr increases α(T), Al, 4d Nb, 5d Hf and W almost keep α(T) unchanged in Ti_0.75X_0.25C at high temperatures. The electronic structures of Ti_0.75X_0.25C were calculated and analyzed, and the electronic density of states was used to interpret variations of elastic properties and ductile/brittle behavior induced by alloying additions.     

Modification of thin oxide films on Be,Si, Al,Ti, Zr,and W under bombardment by He<Superscript>+</Superscript> and Ar<Superscript>+</Superscript> ion beams with a broad energy spectrum

Data on the distribution of Be, Al, Ti, Fe, Cu, Zr, Mo, and W atoms implanted in oxide film on metal substrates by ion mixing under the action of He⁺ and Ar⁺ ion beams with a broad energy spectrum, with average energy of 10 keV, and with radiation doses up to 1 × 10²¹ ion/cm² are presented. It is shown that layers with different concentration gradients of implanted atoms form in a thin oxide layer due to simultaneous implantation, but their concentration decreases dramatically to the background value at the oxide-metal interface. Analysis of experimental data suggests that the migration of implanted atoms takes place by means of the diffusion mechanism and is determined by the parameters of physicochemical interaction of implanted atoms with substrate atoms.