NixZry(x:y=1∶2或2∶1)团簇的量子化学研究

根据化学键理论和拓扑学原理,设计了非晶态团簇NixZry(x:y=1:2或2：1,x+y≤9）的几十种可能的构型,并应用量子化学从头算方法对它们的几何构型进行了优化,分析比较了这些构型的能量和稳定性。结果表明对于NixZry(x:y=1:2）低对称性的平面构型最稳定,而NixZry(x:y=2：1）三棱柱构型最稳定。这可能是由于两者外层价电子的数量差异所致：Zr仅有4价电子,较适宜配位数低的平面构型,而Ni(4s^23d^8),更适宜立体构型。     

耐蚀合金Au3Cu高温冷却过程中能量及结构转变的分子动力学模拟

用分子动学模拟方法对液态Au3Cu冷却过程进行了研究,考察了不同冷却速度下Au3Cu结构变化特点,原子间相互作用势采用F-S多体势,结构分析采用键取向序和对分析技术。计算结果表明,冷却速度对液态Au3Cu能量及结构转变有重要影响,给出了不同冷却速度下液态Au3Cu结构转变的微观信息。     

ICP-AES法测定铁钕合金中主量元素钕及7种杂质元素的研究

用ICP－AES法同时测定了铁钕合金中主量元素钕及Al、Si、Mn、Cr、Mg、Zr、Ca等7种杂质元素。研究了基体元素铁、主量元素钕对杂质元素的光谱干扰,选择了合适的分析线和内标线,测定了分析方法的检出限,回收率为87％－113％。方法准确、快速、简便,结果令人满意。     

粉末化学镀负载型NiB/MgO非晶态合金及其加氢催化性能

粉末化学镀负载型NiB/MgO非晶态合金及其加氢催化性能;NiB/MgO;非晶态合金;粉末化学镀;环丁烯砜加氢     

新型金属-树脂间粘接性单体的合成与应用

甲基丙烯酰氧癸基硫脲嘧啶羧酸酯;粘接性单体;复合树脂;牙用合金;粘接性能     

非晶态Ni-S-Mn三元合金电极析氢行为

非晶态Ni-S-Mn三元合金电极析氢行为;电极;析氢电催化活性;水电解;非晶态合金     

铋对铅铋合金表面氧化膜生成的影响

铋对铅铋合金表面氧化膜生成的影响;铋;PbO;PbO+PbO·PbSO4;PbO2;蓄电池     

乙酰胺-尿素-NaBr熔体中Gd-Ni合金的电化学制备

熔盐电解法制取稀土合金功能材料具有低成本等优点.本文选取353 K的乙酰胺-尿素-NaB r熔体,应用循环伏安法研究镍于该熔体(含0.063 mol.L-3N iC l2)、Pt、Cu电极上的还原.实验表明,N i(Ⅱ)+2 eN i(0)是一步完全不可逆反应,测得在Pt上N i(Ⅱ)的传递系数α=0.28,扩散系数D0=4.63×10-5cm2.s-1,Cu上α=0.22,D0=6.05×10-7cm2.s-1.以Cu作基体,Gd(Ⅲ)于该熔体不能单独还原为Gd(0),但可以被N i(Ⅱ)诱导共沉积.由恒电位法电解得到的Gd-N i合金,Gd(0)的含量随电解电位、Gd(Ⅲ)/N i(Ⅱ)摩尔比及电解时间的变化而变化.控制电解电位为-0.75 V,Gd(Ⅲ)/N i(Ⅱ)摩尔比为1∶1,电解20 m in.所得合金膜是非晶态的.     

Numerical simulation of dendrite growth and microsegregation formation of binary alloys during solidification process

The dendrite growth and solute microsegregation of Fe-C binary alloy are simulated during solidification process by using cellular automaton method. In the model the solid fraction is deduced from the relationship among the temperature, solute concentration and curvature of the solid/liquid interface unit, which can be expressed as a quadric equation, instead of assuming the interface position and calculating the solid fraction from the interface velocity. Then by using this model a dendrite with 0 and 45 degree of preferential growth direction are simulated respectively. Furthermore, a solidification microstructure and solute microsegregation are simulated by this method. Finally, different Gibbs-Thomson coefficient and liquid solute diffusing coefficient are adopted to investigate their influences on the morphology of dendrite.     

Molecular dynamics study of mosaic structure in the Ni-based single-crystal superalloy

The mosaic structure in a Ni-based single-crystal superalloy is simulated by molecular dynamics using a potential employed in a modified analytic embedded atom method. From the calculated results we find that a closed three-dimensional misfit dislocation network, with index of $\langle 011\rangle${\{}100{\}} and the side length of the mesh 89.6\,{\AA}, is formed around a cuboidal $\gamma '$ precipitate. Comparing the simulation results of the different mosaic models, we find that the side length of the mesh only depends on the lattice parameters of the $\gamma $ and $\gamma '$ phases as well as the $\gamma $/$\gamma '$ interface direction, but is independent of the size and number of the cuboidal $\gamma '$ precipitate. The density of dislocations is inversely proportional to the size of the cuboidal $\gamma '$ precipitate, i.e.~the amount of the dislocation is proportional to the total area of the $\gamma $/$\gamma '$ interface, which may be used to explain the relation between the amount of the fine $\gamma '$ particles and the creep rupture life of the superalloy. In addition, the closed three-dimensional networks assembled with the misfit dislocations can play a significant role in improving the mechanical properties of superalloys.