美东地区罗德河流域地下水中铝形态分布的化学平衡模式计算

美东地区的罗德河流域遭受着严重的酸沉降侵蚀．在酸性条件下,铝从土壤中大量溶解并迁移到水环境中．地表水中升高的铝浓度对鱼类产生毒害,监测地表水和土壤水中的铝形态及浓度变化已成为问题的关键．本文报导了用化学平衡模式计算法分析美东地区罗德河流域地下水中的铝形态分布,获得了有价值的结论     

H6M4(N2H2)3(M=Al,Ga)簇合物的结构、红外光谱和热力学性质研究

采用自洽场方法(HF)和密度泛函(DFT)的B3LYP方法，在6-31G^*水平下，研究了H6M4(N2H2)3(a—M＝Al，b—M＝Ga)簇合物的几何构型、电子结构、红外光谱及热力学性质．结果表明：N—N键比肼中N—N键长，有进一步裂解的趋势．振动频率计算表明：铝、镓的肼簇合物为基态稳定结构．     

Si3N4陶瓷颗粒增强铝基复合材料压缩超塑性研究

采用热压法制备出了体积分数为20%的Si3N4陶瓷颗粒增强的2124铝基复合材料,对该材料的压缩超塑性进行了研究,确定了该复合材料压缩超塑成形工艺参数,并对其超塑性机理进行了初步研究。研究表明,该复合材料在一定的工艺条件下可实现压缩超塑性,其最佳超塑压缩温度为515℃,最佳初始应变速率范围为1.225×10-4~1.225×10-3/s,其超塑性压缩变形机制为适量的液相和动态再结晶共同调节的晶界滑动。     

原位颗粒含量对半固态7075铝合金组织的影响

制备具有不同原位TiC颗粒含量的喷射沉积7075铝合金,在610℃和620℃进行二次加热并保温30min,淬火固定半固态组织.采用扫描电镜观察其组织,利用平均截线法统计其晶粒尺寸,分析不同颗粒含量对喷射沉积7075铝合金半固态组织的影响规律.结果表明:当TiC颗粒含量达到2.91%(体积分数)时已经产生良好的钉扎效果,使得合金基本保持喷射沉积组织特征,能够满足后续的半固态成形工艺要求;TiC颗粒含量超过2.91%后,晶粒尺寸会进一步减小,但晶界上的颗粒明显增多并呈网状分布;TiC颗粒含量小于2.91%时,局部区域发生晶粒的异常长大现象,使合金组织的均匀化程度下降.     

The hidden disintegration of cluster heterogeneity in Fe-based glass-forming alloy melt

The evolution of liquid metal at high temperature is known much less than their solid states. This is partially due to that the message concerning clusters, metastable phase or heterogeneity in liquid is usually too slight to be traced. Here, we shed some light on the nature of structural evolution of Fe-based glass-forming alloy during overheating process by the investigation of high-temperature melt viscometry and first principles simulations. It was found that a structural transition around 1400 ℃ occurred in the melts of initial homogeneous ingot, heterogeneous ingot and amorphous ribbons jointly, and was confirmed by the results from differential scanning calorimeter(DSC), and ab initio molecular dynamics(AIMD). Combining these results with Fe-Si-B ternary phase diagram and the melting characteristics of Fe-B compounds, it is safe to conclude that the disintegration of Fe_2B type clusters to Fe_3B-type clusters leads to the observed transition. These results offer a significant reference for the preparation and property control of Fe-based amorphous alloys.     

非晶Tb-Gd-Co合金薄膜特性研究

磁光存储材料的研充,最重要的是探求实用化磁光介质薄膜材料和制备工艺.非晶稀土-过渡金属(以下缩写为RE-TM)材料,适于使用制作磁光盘已崭露头角,由三元合金Gd-Fe-Co或Tb-Fe-Co膜做成的磁光盘样机已经问世.在以(Tb,Gd)_x-(Fe,Co)_(1-x)为基础的合金薄膜系列里,Tb-Gd-Co比Gd-Fe-Co有更大的矫顽力,这对提高存储密度是有利的.此外,Tb-Gd-Co材料还可以提供稍大的克尔(Kerr)旋转角θ_k和宽温特性.近年来,人们很重视非晶Tb-Gd-Co膜的研究,Togami首先报道Tb-Gd-Co膜,随后,Luborsky等人从实验肯定Tb-Gd-Co膜用作磁光介质的稳定性.为使Tb-Gd-Co材料达到实用化,本文研究了溅射参数对非晶Tb-Gd-Co合金薄膜特性的影响,获得了比较好的     

Tailoring soft magnetic properties of Fe-based amorphous alloys through C addition

It is known that developing Fe-based amorphous alloys with the saturation flux density(B_s) higher than 1.65 T is a major challenge.In present work,effects of C addition on magnetic properties of Fe-based amorphous alloys were systematically studied.It has been found that the addition of C can significantly increase the saturation flux density(B_s) and the magnetic flux density at 800 A/m(B_(800)) of the Fe-B-C-Si-P amorphous alloys.After the addition of C,the B_s of the amorphous alloys increase from 1.61 T(Fe_(83)B_(13)Si_3 P_1) to 1.65-1.71 T(Fe_(83)B_(13-x)C_xSi_3 P_1,x=1.5,2,3 and 4). The Fe_(83)B_(10)C_3 Si_3 P_1 amorphous alloy possesses excellent soft magnetic properties with high B_s of 1.71 T and low H_c of 1.5 A/m.It shows that density increase of the alloys and weakened metalloid-sp/metal-d bonding caused by C addition contribute to the increment of B_s.It suggests that the newly developed high-performance amorphous alloys possess great potential in application.     

磁控形状记忆合金伸缩作动器设计及参数分析

该文基于磁控形状记忆合金（MSMA）材料自主设计了一种磁控形状记忆合金伸缩作动器,并阐述其原理。通过建立有限元模型,并对MSMA相对空气导磁率、导磁片的相对导磁率及电流等参数进行了分析。研究表明：当MSMA相对空气导磁率为30、电流大小为3 A时,MSMA棒中心线磁场的均匀性较好;而导磁片的相对导磁率对其均匀性影响较小。设计出了一种新型磁控形状记忆合金伸缩作动器,达到了从理论上充分掌握MSMA棒轴向磁场强度及均匀性,并间接地保证了磁控形状记忆合金伸缩作动器具有较优的控制力。     

微旋转结构法测量Al薄膜的残余应力

薄膜的残余应力是影响MEMS器件工作可靠性和稳定性的重要因素,微旋转结构法能够简单有效地测量薄膜的残余应力.文中采用MEMS工艺制作Al薄膜微旋转结构,根据微旋转结构法对m薄膜的残余应力进行了测量和计算.实验结果表明,溅射Al膜的残余应力为张应力,大小在80～110 GPa之间.对Al薄膜悬梁进行静电驱动,其驱动电压为31 ～34 V,与根据Al膜残余应力的测量值所计算出的驱动电压基本吻合.     

Effect of Graphene Nanoplatelets addition on mechanical properties of pure aluminum using a semi-powder method

In recent years, graphene has attracted considerable research interest in all fields of science due to its unique properties. Its excellent mechanical properties lead it to be used in nano-composites for strength enhancement. This paper reports an Aluminum–Graphene Nanoplatelets(Al/GNPs)composite using a semi-powder method followed by hot extrusion. The effect of GNP nano-particle integration on tensile, compressive and hardness response of Al is investigated in this paper. It is demonstrated that 0.3 wt% Graphene Nanoplatelets distributed homogeneously in the matrix aluminum act as an effective reinforcing filler to prevent deformation. Compared to monolithic aluminum(in tension), Al–0.3 wt% GNPs composite exhibited higher 0.2% yield strength(+14.7%), ultimate tensile strength(+11.1%) and lower failure strain( -40.6%). Surprisingly, compared to monolithic Al(in compression), Al–0.3 wt% GNPs composite exhibited same 0.2% compressive yield strength and lower ultimate compression strength(- 7.8%),and lower failure strain(- 20.2%). The Al–0.3 wt% GNPs composite exhibited higher Vickers hardness compared to monolithic aluminum(+11.8%).Scanning electron microscopy(SEM), Energy-Dispersive X-ray Spectroscopy(EDS) and X-ray diffraction(XRD) were used to investigate the surface morphology, elemental percentage composition, and phase analysis, respectively.