3d过渡金属在NiAl中的占位及对键合性质的影响

通过赝势平面波方法系统地研究了3d过渡金属元素在B2-NiAl中的占位以及对键合性质的影响.通过形成能得出Sc,Ti,V 和Zn元素优先取代NiAl中的Al位,而Cr,Mn,Fe,Co和Cu优先取代Ni位.通过分析晶格常数变化量、电荷聚居数、交叠聚居数以及价电荷密度分布, 讨论了晶格畸变和键合性质的变化.结果表明: 取代Al的Sc,Ti,V和Zn元素掺杂使NiAl中晶格发生畸变,这对NiAl键合性质的变化起着重要作用,这些掺杂元素与第一近邻Ni原子产生强烈的排斥作用,形成反键,同时它们之间发生较大的电荷转 关键词： NiAl金属间化合物 3d过渡金属 第一性原理 键合性质     

难熔元素钨在NiAl位错体系中的占位及对键合性质的影响

用第一性原理离散变分方法研究了难熔元素钨(W)在金 属间化合物NiAl<100>(010)刃型位错体系中的占位以及对键合性质的影响, 计算了纯位错体系和掺杂体系的能量参数(结合能、 杂质偏聚能及原子间相互作用能)、 态密度和电荷密度分布. 体系结合能和杂质偏聚能的计算结果表明: 难熔元素W优先占据Al格位. 此外,由于难熔元素W的4d轨道与近邻基体原子Ni的3d轨道和Al的3p轨道的杂化, 使得掺杂体系中难熔元素W与近邻基体原子间的相互作用能加强; 同时难熔元素W与位错芯区近邻基体原子间有较多的电荷聚集, 这表明W与近邻基体原子间形成了较强的化学键. 难熔元素W对NiAl化合物的能量及电子结构有较大的影响, 从而影响位错的运动及NiAl金属间化合物的性能. 关键词： 电子结构 位错 金属间化合物 杂质     

ErFe11-xCoxTi化合物的结构与磁性研究

粉末样品的X射线衍射和热磁曲线测量表明，所有的ErFe_11-xCo_xTi(x=0—11)化合物都结晶ThMn₁₂型结构，且具有良好的单相性.Co替代Fe导致居里温度的显著提高和晶格常数的单调减小，4.2K下的饱和磁化强度M_s随Co含量的增加在x=3处呈现极大值.ErFe_11-xCo_xTi化合物当x≤4时，在室温下具有单轴磁晶各向异性，当6≤x≤9时，样品的易磁化方向垂直于c轴 关键词：     

金属间化合物Fe3l熔体中的键对与多面体

利用分子动力学模拟技术研究了Ｆｅ３Ａｌ的双体分布函数ｇ（ｒ）在快速凝固条件下随温度的变化情况,结果发现Ｆｅ３Ａｌ在６００Ｋ时第二峰劈裂,液态金属中已经产生了非晶态;用键对分析技术详细考察了Ｆｅ３Ａｌ中微观组团的演化特点,液体中的键对数与多面体数与温度的关系都表明Ｆｅ３Ａｌ在向非晶转转变的过程中     

快淬(Er1-xSmx)2Fe17Cy化合物的结构与磁性

用快速急冷方法制备了(Er_1-xSm_x)₂Fe₁₇C_y(x≤0.8,1.5≤y≤2.5)化合物,它们具有菱方Th₂Zn₁₇型结构,并且在高温是稳定的。与相应的不含C的(Er_1-xSm_x)₂Fe₁₇化合物比较,当C含量y=2.5时,引起单胞体积增加～6.3％,居里温度增     

石墨烯量子霍尔平台与平台之间转变的标度律关系

在2到50 K温度范围内测量了单层石墨烯量子霍尔平台与平台之间转变的标度律关系. 发现石墨烯的标度律指数κ不是普适的,在低温段的κ大约是0.13,在高温段的κ大约是0.33. 这一结果进一步验证了石墨烯中长程散射的主导地位. 关键词： 石墨烯 量子霍尔效应 标度律     

长程表面等离子体的增强效应

研究了双层金属薄膜构型中构型参数对长程表面等离子体的影响,并发现了衰减全反射激发方法下长程表面等离子体的增强效应.以特征矩阵算法为基础,通过数值计算构型的反射谱,研究构型参数的变化对反射谱的影响.发现由于衰减全反射激发方法中耦合器的存在导致的非对称特性,会使双层金属薄膜构型中的长程表面等离子体拥有本征模式特性以外的有趣特性,如长程模式得到增强而另一支受到抑制,从而使能量更为集中在希望被激发的一支.研究结果对非对称激发构型中的长程表面等离子体研究具有启发意义.     

液氦表面准一维电子气体的集体激发

采用子能带模型,研究了有限温度情况下能带耦合对形成于液氦表面的准一维电子气体的集体激发的两类散射———带内散射和带间散射的影响。首先重点讨论了影响集体激发的重要因子———能量传播函数,得到了长波近似条件下的能量传播函数的普适表达式,然后在此基础上具体计算了三个子能带模型时的耦合散射谱,最后讨论了波矢、温度对耦合散射的影响。     

Nb掺杂γ-TiAl金属间化合物的电子结构与力学性能

运用基于密度泛函理论的第一性原理方法计算了Nb掺杂γ-TiAl金属间化合物的结构参数、能带结构、电子态密度及弹性常数.结果表明:Nb替代Ti掺杂相比Nb替代Al掺杂的形成能低,Nb在替位掺杂时更倾向于取代Ti原子形成稳定的结构,Nb替代Ti掺杂能够提高γ-TiAl金属间化合物的抵御塑性变形能力、断裂强度和延展性;与Nb替代Ti掺杂相比,Nb替代Al掺杂同样增强γ-TiAl金属间化合物的断裂强度且其增强延展性的效果更好,但抵御塑性变形的能力有所削弱.     

Ti-Al金属间化合物结构与性质的第一性原理模拟

采用软件CASTEP模拟Ti-Al金属间化合物的晶体结构、力学性质和电子性质.分析在0 K、0 GPa时,Ti-Al存在的四种热力学稳定结构：TiAl₃、TiAl₂、TiAl、Ti₃Al,发现TiAl₃、TiAl₂、TiAl可以看作由Al的面心立方结构衍化而来,而Ti₃Al的结构与Ti相似,为密排六方结构.随着Ti摩尔分数的增加,TiAl₃、TiAl₂、TiAl、Ti₃Al的体模量相当,剪切模量和Vickers硬度逐渐减小;Pugh比k值也逐渐减小,表示韧性逐渐变好.最后对态密度、Mulliken布居分析等进行模拟,发现这四种结构Ti-Al键都具有金属性、共价性及弱的离子性.     

Surface structure and energy of B2 type intermetallic compound NiAl

The surface structure and energies for 22 surfaces of NiAl, an ordered intermetallic compound of B2 structure, have been studied by using embedded atom method. The results show that, for alternating Ni and Al surfaces with odd numbers of the sum of their three Miller indices, the energy difference between the Ni terminated surface and Al terminated surface increase linearly with increasing the interlayer distance. So from surface energy minimization, the Al terminated surface is favorable for each alternating Ni and Al surface. This is in agreement with experimental results. However, the energy of the (1 1 0) surface belonged to the other kind of the surface consisted of stoichiometric atomic layers and with even numbers of the sum of their three Miller indices, is the lowest in all two kinds of the surfaces. Therefore the (1 1 0) texture of NiAl appears mostly in the experiments.     

Energetics and electronic structure of refractory elements in the dislocation of NiAl

Using DMol and the discrete variational method within the framework of the density functional theory,we study the alloying effects of Nb,Ti,and V in the [100](010) edge dislocation core of NiAl.We find that when Nb(Ti,V) is substituted for Al in the center-Al,the binding energy of the system reduces 3.00 eV(2.98 eV,2.66 eV).When Nb(Ti,V) is substituted for Ni in the center-Ni,the binding energy of the system reduces only 0.47 eV(0.16 eV,0.09 eV).This shows that Nb(Ti,V) exhibits a strong Al site preference,which agrees with the experimental and other theoretical results.The analyses of the charge distribution,the interatomic energy and the partial density of states show that some charge accumulations appear between the impurity atom and Ni atoms,and the strong bonding states are formed between impurity atom and neighbouring host atoms due mainly to the hybridization of 4d5s(3d4s) orbitals of impurity atoms and 3d4s4p orbitals of host Ni atoms.The impurity induces a strong pinning effect on the [100](010) edge dislocation motion in NiAl,which is related to the mechanical properties of the NiAl alloy.     

A study on the orientation inheritance in laminated NiAl produced by in situ reaction annealing

In order to promote the performance of B2 NiAl by texture control of orientation during in situ processing, phase transformation in laminated NiAl with bimodal grain size distribution manufactured by reaction annealing of Ni and Al foils has been studied. It turned out that there existed a Kurdjumov–Sachs orientation relationship (K–S OR) between parent Ni and product NiAl by crystallography analysis according to the electron backscatter diffraction (EBSD) results. The parent Ni did not transform to the product NiAl directly but via the formation of Ni₃Al firstly according to the transmission electron microscope (TEM) observation of the interface. This led to a new K–S OR between Ni₃Al and NiAl with a small atomic misfit, which made less residual stress generated through the formation of Ni₃Al than directly from the parent Ni.     

First-principles investigation of the effects of B impurities on the mechanical properties of NiAl intermetallics

We have investigated the effects of B impurities on the structure and mechanical properties of NiAl intermetallics by using a first-principles pseudopotential total-energy method, based on the density functional theory with a generalized gradient approximation. We found that the impurity B atoms can either replace Ni atoms or Al atoms or both, depending on the surrounding environment. We demonstrated that the presence of B will cause an increase in brittleness and a decrease in the ductility of NiAl for the...     

应力诱发NiAl单晶马氏体相变的分子动力学模拟

利用嵌入原子势（EAM）,对NiAl单晶在外应力作用下的动态拉伸过程进行了分子动力学模拟.应力-应变曲线分析以及原子构型分析表明外应力诱发NiAl合金发生了马氏体相变,原子结构由B2相转变为L1₀相.通过研究原子构型的演化过程,发现马氏体相变是通过多个{110}孪晶面的扩展和湮灭作用来完成的.同时探讨了马氏体相变的微观机理. 关键词： 马氏体相变 NiAl 分子动力学模拟     

NiAl和Cr材料中H原子间隙的第一性原理计算

通过第一性原理赝势平面波方法研究了氢原子在B2-NiAl和Cr合金中的占位以及对键合性质的影响. H在NiAl的富Al和富Ni八面体间隙杂质形成能分别为-2.365和-2.022eV,而在四面体间隙不稳定. H在Cr的八面体和四面体间隙的杂质形成能分别为-2.344和-2.605eV. H在NiAl中的最稳定位置为富Al八面体间隙,而在Cr中的最稳定位置是四面体间隙. 可以预期H在B2-NiAl/Cr体系中主要占据Cr 的四面体间隙位置. 通过分析原子结构、电荷集居数、价电荷密度以及态密度,讨论了H对B2 关键词： NiAl/Cr双相合金 H原子 第一性原理     

烧结过程中Ni-Al金属间化合物形成的内耗

Ni-Al金属间化合物是一类重要的高温结构材料,在多种领域具有明确的目标需求.粉末冶金技术是制备Ni-Al金属间化合物的一种重要选择.探索烧结过程中Ni-Al金属间化合物形成和转变过程,明确固相扩散反应发生温度和金属间化合物种类对调控烧结工艺和优化产品质量至关重要.本文采用内耗技术系统研究了Ni-Al粉末混合物压坯烧结...     

Local structure of NiAl compounds investigated by extended X‐ray absorption fine‐structure spectroscopy

The local structures of pure NiAl and Ti‐, Co‐doped NiAl compounds have been obtained utilizing extended X‐ray absorption fine‐structure (EXAFS) spectroscopy. The results provide experimental evidence that Ni antisite defects exist in the Ni‐rich NiAl compounds. The site preference of Ti and Co has been confirmed. Ti occupies the Al sublattice, while Co occupies the Ni sublattice. The structure parameters obtained by EXAFS were consistent with the X‐ray diffraction results. Owing to the precipitation of α‐Cr, the local structure of NiAl‐Cr has not been obtained, making the site preference of Cr unclear.