Influence of Forced Convection on Columnar Microstructure During Directional Solidification of Al-Ni Alloys

This paper presents a summary of cellular and dendritic morphologies resulting from the upward directional solidification of Al - Ni alloys in a cylindrical crucible. We analysed the coupling of solid-liquid interface morphology with natural and forced convection. The influence of natural convection was first analyzed as a function of growth parameters (solute concentration, growth rate and thermal gradient). In a second step, the influence of axial vibrations on solidification microstructure was investigated by varying vibration parameters (amplitude and frequency). Experimental results were compared to preliminary numerical simulations and a good agreement is found for natural convection. In this study, the critical role of the mushy zone in the interaction between fluid flow and solidification microstructure is pointed out.

氮化铝基板与Cu和Al的接合及其表面改质效果

对AlN陶瓷基板进行了减压直流等离子体喷涂镀Al，在基板表面形成厚度约２μｍ的金属Al薄层，实现了Al与AlN中的良好接合。

Theory Of Phase Transformation And Reorientation In Single Crystalline Shape Memory Alloys

A constitutive model, based on an (n + 1)-phase mixture of the Mori-Tanaka average theory, has been developed for stress-induced martensitic transformation and reorientation in single crystalline shape memory alloys. Volume fractions of different martensite lattice correspondence variants are chosen as internal variables to describe microstructural evolution. Macroscopic Gibbs free energy for the phase transformation is derived with thermodynamics principles and the ensemble average method of micro-mechanics. The critical condition and the evolution equation are proposed for both the phase transition and reorientation. This model can also simulate interior hysteresis loops during loading/unloading by switching the critical driving forces when an opposite transition takes place.

Influences of Al doping concentration on structural, electrical and optical properties of Zn0.95Ni0.05O powders

Nanocrystalline Zn0.95 - xNi0.05AlxO (x = 0.01, 0.02, 0.05 and 0.10) diluted magnetic semiconductors have been synthesized by an auto-combustion method. X-ray diffraction measurements indicate that all Al-doped Zn0.95Ni0.05O samples have the pure wurtzite structure. Transmission electron microscope analyses show that the as-synthesized powders are of the size 40 - 45 nm. High-resolution transmission electron microscope, energy dispersive spectrometer and X-ray photoemission spectroscope analyses indicate that Ni2+ and Al3+ uniformly substitute Zn2+ in the wurtzite structure without forming any secondary phases. The Al doping concentration dependences of cell parameters (a and c), resistance and the ratio of green emission to UV emission have the similar trends. (c) 2007 Elsevier B.V. All rights reserved.

温带灌木生态系统的动态特征--生物量和元素循环

本文通过对北京郊区的一个经皆伐以后，自然发育二十多年的次生灌木生态系统的定量研究，结果如下： 1）该生态系统年中最高生物量可达20.30 t/ha，但没有明显的年净增加，从而推出该系统可能进入一种比较稳定的平衡状态，生物量最高出现于秋季（生长季末）;最低为春季（生长季始），这主要是由于从秋季到春季经历了凋落和休眠的过程。另外，灌木的地下部分生物量与地上之比接近1，这也是对灌木生长发育特征的反映。 2）植物各个部位--侧根，主根，主枝，侧枝，叶---有不同的烧失量，但三种植物几乎有相似的顺序，即：主枝>侧枝><主根>侧根>叶（荆条的叶与侧根有相反的顺序）。烧失量反映了有机物质在植物各个部位的含量。 3）十种元素（N，K，Ca，Mg，Na，Cu，Zn，Fe，Al，Mn）在同一种植物，同种元素在不同植物，植物的不同部位，都有不同的含量，并且随着季节的变化而变化。 4）降水中所含的元素是生态系统营养的重要来源，尤其是一些大量元素如K, Na, Ca, Mg等。一般地冠流中的元素含量要高于降水中的，冠流中元素浓度与降水中的比值，不同的元素是不相同的，其中K为2-7倍，Na为1-3倍，Ca, Mg为1-2倍，对同一元素，比值的大小降水的时间有一定的关系，也即有时间性的变化。 5）土壤的水分含量不仅由于雨季和旱季而发生变化，还随土壤的不同的而异，而这种变化又随着季节性而不同。 6）营养元素输入--输出预算表明，各个元素基本上没有明显的存留，甚至有微量的亏损，但仍可以判断，该生态系统基本上处于一种较稳定的平衡状态。

Cu~(2+)、Zn~(2+)诱导稀有鮈鲫应激蛋白质的研究

以稀有鲫为材料 ,研究了应激蛋白质作为生物学指标的敏感性。结果表明 ,在无可观察效应浓度下 ,经 5d亚慢性胁迫暴露 ,以Cu2 +为胁迫因子 ,稀有鲫被诱导出约 54KDa的应激蛋白质 ;以Zn2 +为胁迫因子 ,稀有鲫被诱导出约 94KDa ,67KDa和 40KDa的应激蛋白质。应激蛋白质有可能成为一种生物学指标运用于生态风险性早期预警。

Heavy metal pollution in China: Origin, pattern and control

Goal, Scope and Background. Heavy metal is among one of the pollutants, which cause severe threats to humans and the environment in China. The aim of the present review is to make information on the source of heavy metal pollution, distribution of heavy metals in the environment, and measures of pollution control accessible internationally, which are mostly published in Chinese. Methods. Information from scientific journals, university journals and governmental releases are compiled focusing mainly on Cd, Cu, Pb and Zn. Partly Al, As, Cr, Fe, Hg, Mn and Ni are included also in part as well. Results and Discussion. In soil, the average contents of Cd, Cu, Pb and Zn are 0.097, 22.6, 26.0 and 74.2 mg/kg, respectively. In the water of. the Yangtze River Basin, the concentrations of Cd, Cu, Pb and Zn are 0.080, 7.91, 15.7 and 18.7 pg/L, respectively. In reference to human activities, the heavy metal pollution comes from three sources: industrial emission, wastewater and solid waste. The environment such as soil, water and air were polluted by heavy metals in some cases. The contents of Cd, Cu, Pb and Zn even reach 3.16, 99.3, 84.1 and 147 mg/kg, respectively, in the soils of a wastewater irrigation zone. These contaminants pollute drinking water and food, and threaten human health. Some diseases resulting from pollution of geological and environmental origin, were observed with long-term and non-reversible effects. Conclusions. In China, the geological background level of heavy metal is low, but with the activity of humans, soil, water, air, and plants are polluted by heavy metals in some cases and even affect human health through the food chain. Recommendations and Outlook. To remediate and improve environmental quality is a long strategy for the polluted area to keep humans and animals healthy. Phytoremediation would be an effective technique to remediate the heavy metal pollutions.

Mg acceptor energy levels in AlxInyGa1-x-yN quaternary alloys: An approach to overcome the p-type doping bottleneck in nitrides

The Mg-Ga acceptor energy levels in GaN and random Al8In4Ga20N32 quaternary alloys are calculated using the first-principles band-structure method. We show that due to wave function localization, the MgGa acceptor energy level in the alloy is significantly lower than that of GaN, although the two materials have nearly identical band gaps. Our study demonstrates that forming AlxInyGa1-x-yN quaternary alloys can be a useful approach to lower acceptor ionization energy in the nitrides and thus provides an approach to overcome the p-type doping difficulty in the nitride system.

Design and operation of integrated pilot-scale dimethyl ether synthesis system via pyrolysis/gasification of corncob

The integrated pilot-scale dimethyl ether (DME) synthesis system from corncob was demonstrated for modernizing utilization of biomass residues. The raw bio-syngas was obtained by the pyrolyzer/gasifier at the yield rate of 40-45 Nm(3)/h. The content of tar in the raw bio-syngas was decreased to less than 20 mg/Nm(3) by high temperature gasification of the pyrolysates under O-2-rich air. More than 70% CO2 in the raw bio-syngas was removed by pressure-swing adsorption unit (PSA). The bio-syngas (H-2/CO approximate to 1) was catalytically converted to DME in the fixed-bed tubular reactor directly over Cu/Zn/Al/HZSM-5 catalysts. CO conversion and space-time yield of DME were in the range of 82.0-73.6% and 124.3-203.8 kg/m(cat)(3)/h, respectively, with a similar DME selectivity when gas hourly space velocity (GHSV, volumetric flow rate of syngas at STP divided by the volume of catalyst) increased from 650 h(-1) to 1500 h(-1) at 260 degrees C and 4.3 MPa. And the selectivity to methanol and C-2(+) products was less than 0.65% under typical synthesis condition. The thermal energy conversion efficiency was ca. 32.0% and about 16.4% carbon in dried corncob was essentially converted to DME with the production cost of ca. (sic) 3737/ton DME. Cu (111) was assumed to be the active phase for DME synthesis, confirmed by X-ray diffraction (XRD) characterization.