攀钢西昌钢钒高炉铁水适宜硫含量分析

为了寻求炼铁、炼钢工序经济适宜的铁水硫含量,通过对生产数据的统计,分析了攀钢西昌钢钒1号高炉铁水硫含量与技术经济指标的关系,得到了攀钢西昌钢钒高炉铁水钛含量与铁水硫含量及焦比的回归公式;并依据高炉冶炼过程中实际的矿焦比与铁水钛含量的经验数据,计算分析了不同铁水硫含量与炼铁的原、燃料成本的关系,综合考虑炼钢脱硫成本的变化,得出当前硫负荷条件下铁水适宜的硫含量（质量分数）应控制在0.085％左右．     

高速冷滚打成形金属流动仿真分析

为了揭示高速冷滚打成形中工件金属流动规律,基于高速冷滚打原理得到了滚打轮与工件由点接触到线接触最后为面接触的变化过程,依据最小阻力定律分析了各个阶段的金属流动规律;根据渐开线花键冷滚打的加工工艺,建立了有限元分析模型,对高速冷滚打过程进行了仿真,分析了冷滚打不同时刻的等效应变状况,分析了接触面上一组节点在冷滚打过程中的流动轨迹,给出了节点的流动规律,对比分析了仿真分析与理论分析结果.     

基于ANSYS-Workbench的汽车水箱散热器护风罩模态分析

介绍了汽车水箱散热器的作用,并采用Pro/e对某型号水箱散热器护风罩造型。利用ANSYS-Workbench对其进行静力学及模态分析,求得了该型护风罩的六阶固有频率及相应的变形云图。     

各向异性椭圆方程障碍问题弱解的拟最小化性质

拟最小化性质是研究椭圆方程弱解的重要工具。该文研究了各向异性的A-调和方程-divA(x,Du)=0障碍问题的弱解,使用了Hlder不等式,Young不等式以及一些基本不等式,完成了各向异性情形下弱解的积分估计,得到了各向异性障碍问题弱解的拟最小化性质。     

神龙城投资的分析与预测模型及推广

为了反映不同因素对湖南省株洲市神龙城商业圈发展的影响,将人口数量、居民人均可支配收入和商业区的住房成本作为商业圈发展的主要影响因素,并运用层次分析法判断该城市房价的合理性。进一步利用回归分析法,将3个影响因素作为变量,通过商业圈房价的未来走势来预测神龙城商业圈未来的发展。最后借助Matlab软件和有关数据对模型进行了检验,发现预测结果与实际结果比较吻合,有一定的通用性。     

Effect of Mg-film thickness on the formation of semiconductor Mg2Si films prepared by resistive thermal evaporation method

Mg fi lms of various thicknesses were deposited on Si(111) substrates at room temperature by resistive thermal evaporation method, and then the Mg/Si samples were annealed at 40 ℃ for 4 h. The effects of Mg fi lm thickness on the formation and structure of Mg2Si fi lms were investigated. The results showed that the crystallization quality of Mg2Si fi lms was strongly infl uenced by the thickness of Mg fi lm. The XRD peak intensity of Mg2Si(220) gradually increased initially and then decreased with increasing Mg fi lm thickness. The XRD peak intensity of Mg2Si(220) reached its maximum when the Mg fi lm of 380 nm was used. The thickness of the Mg2Si fi lm annealed at 400 ℃ for 4 h was approximately 3 times of the Mg fi lm.     

The effect of MWCNTs on the performance of α-sexithiophene OTFT device and its gas-sensing property

In this paper,bottom contact organic thin-film transistor(OTFT)gas sensors were prepared.Silicon dioxide(SiO2)and titanium/aurum(Ti/Au)were used as the insulating layer and the electrode for the device,respectively.The multi-walled carbon nanotubes(MWCNTs)/α-sexithiophene(α-6T)bilayer films were used as the active layer,andα-6T single layer sensitive film was also prepared for comparison purpose.The electrical and trace NO2-sening properties of these two OTFT gas sensors were tested and analyzed.The results showed that,the OTFT device based on MWCNTs/α-6T bilayer had obviously better electrical properties,better stabilities and higher NO2-sening response values than the device withα-6T single layer,in which both the carrier mobility(μ)and on/off current ratio enhanced two order of magnitude.The improved performance of bilayer OTFT can be explained that MWCNTs acted as highly conducting bridges connecting the crystalline terraces in theα-6T film.Threshold voltage(VT),carrier mobility,on/off current ratio and grid current which showed extremely similar variation trend as source-drain current,were optional parameters to reveal the gas-sensing characteristic of OTFT gas sensors.Morphology analysis showed that the special feature of MWCNTs had certain influence on the gas-sensing properties.     

Large eddy simulation and proper orthogonal decomposition analysis of turbulent flows in a direct injection spark ignition engine: Cyclic variation and effect of valve lift

Large eddy simulation(LES)is used to calculate the in-cylinder turbulent flow field in a direct injection spark ignition(DISI)engine.The computations are carried out for three different maximum valve lifts(MVL)and throughout 100 consecutive engine cycles.The simulated results as well as corresponding particle image velocimetry(PIV)measurement database are analyzed by the proper orthogonal decomposition(POD)method.Through a new developed POD quadruple decomposition the instantaneous in-cylinder flow fields are decomposed into four parts,named mean field,coherent field,transition field and turbulent field,respectively.Then the in-cylinder turbulent flow characteristics and cycle-to-cycle variations(CCV)are studied separately upon the four part flow fields.Results indicate that each part exhibits its specific characteristics and has close connection with others.The mean part contains more than 50%of the total kinetic energy and the energy cascade phenomenon occurs among the four part fields;the coherent field part possesses the highest CCV level which dominates CCV of the bulk flow.In addition,it is observed that a change in MVL affects significantly the in-cylinder flow behavior including CCV,especially for the coherent part.Furthermore,the POD analysis demonstrates that at least 25 sample cycles for the mean velocity and 50 sample cycles for the RMS velocity are necessary for obtaining converged and correct results in CCV.     

Fabrication and characteristic detection of graphene nanoelectrodes

Graphene has the advantages of high electrical conductivity, high heat conductivity, and low noise, which makes it a potential option for integrated circuits interconnection and nanoelectrodes. In this paper, we present a novel fabrication method for graphene nanoeletrodes with nanogap. First, graphene grown by chemical vapor deposition (CVD) is assembled to a chip with microelectrodes. Second, an atomic force microscopy (AFM) based mechanical cutting method is developed to cut the graphene into nanoribbons and nanoeletrodes with nanogap. Then the electronic property of a single nanodot is characterized using the garphene nanoelectrodes, demonstrating the effectiveness of the graphene nanoelectrodes. The fabricated graphene nanoeletrode pairs can be used as probes to detect single molecule in micro-environment, and show an attractive prospect for future molecular electronics applications.     

室内燃气报警器的安装位置优化

燃气属于易燃易爆的危险性气体,当在室内有限空间发生泄漏时,会带来相当严重的后果。针对燃气泄漏扩散的特点,利用 Gambit建立室内燃气灶喷嘴处气体泄漏扩散的物理模型,并结合 CFD 流体动力学软件FLUENT模拟了燃气连续泄漏的扩散过程。对燃气在一定温度梯度、不同湿度条件下的扩散效果进行了对比,并监测了指定安装区域内不同安装点处的浓度,以期达到优化报警器安装位置的目的。结果表明,室内空气的相对湿度和安装位置是影响报警时间的关键因素;在相同安装点,当空气相对湿度增加15%时,报警时间延迟近6 s;在一定的空气相对湿度下,报警器距离泄漏口水平位置增加1 m,报警时间滞后4 s。