超临界流体在纳米材料制备中的应用

超临界流体具有粘度低,密度大,较好的流动、传质、传热和溶解性等特性。超临界流体对状态参数的改变十分敏感,温度和压力较小的变化就会使流体的性质发生较大的改变。超临界流体可作为热敏性物质分离纯化方法及产品分析和测定手段,本文主要介绍超临界流体在纳米材料制备中的应用。     

Catalytic Activity of Ceria-Zirconia Nanostructured Materials Prepared via Reversed Microemulsion Method

CeO2-ZrO2mixed oxides have a number of i mpor-tant catalytic applications[1].They are extensively em-ployed in current automotive three-way catalysts(TWCs)as the oxygen storage promoters,i.e.materi-als that regulate the oxygen partial pressure throughtheC…     

热轧板带板形检测发展分析

分析了国内外热轧板带的板形检测技术及几种板形检测方法的发展应用状况,并就热轧板带产 品的发展及要求展望了未来板形检测的发展方向。     

Risk Concession Model for Build/Operate/Transfer Contract Projects

This paper extends the build–operate–transfer (BOT) concession model (BOTCcM) to establishing a risk concession model for BOT contract projects. The decision for a concession period is one of the most important decisions in determining a BOT contract. BOTCcM presents an alternative method to assist in determining a concession period that can protect the basic interests of both the investor and the government concerned. However, there is a major limitation in using the model, namely it gives no consideration to the impacts of risks on the estimation of various economic variables in the model. This study considers the risk impacts to the BOTCcM model and presents an additional risk concession model. This model provides an approach for formulating a concession period to consider the impacts of risks and, at the same time, protect the basic interests of both the investor and the government concerned. A hypothetical case is used to show the procedures of formulating the risk concession period through the assistance of the Monte Carlo simulation method.     

Key Constraints Analysis with Integrated Production Scheduler

Project delays due to late availabilities of resource and information (RI) prerequisites are one of the major threats to construction management. It is desirable to avoid such delays through better means of constraint management. With most contemporary planning methodologies and tools, it is generally difficult to represent many hidden flow constraints in a construction work plan. However, evaluating the impact of flow constraints is crucial in determining their criticalities, based on which the flow constraints may be prioritized and consequently resolved to minimize project delays. Due to the fact that limited resources are often shared among various trades, it may not be practical to resolve all the constraints simultaneously so that a tradeoff is inevitable, which suggests that management should focus on the most important ones termed as key constraints (i.e., those directly contributing to project delays). This paper presents a methodology that augments the traditional critical path method with RI availability constraints to analyze the causes of delays and locate the key constraints binding on project completion without ambiguity based on the principles of the theory of constraints. The methodology of key constraint analysis has been implemented with the integrated production scheduler, a constraint-based scheduling tool which facilitates the modeling, analysis, and management of constraints at the production planning level. An illustrative example is depicted to demonstrate how the proposed methodology works.     

Temperature properties of luminescence from PbFCl single crystal scintillator

The temperature dependent luminescence and thermoluminescence (TL) from PbFCl single crystal scintillator as well as its annealing effect were investigated. The experimental results show that under the X-ray excitation the luminescent intensity decreases rapidly above 170 K. The temperature dependence of luminescence meets the thermal quenching principle and the luminescence intensity at room temperature is about one fortieth of 100 K. The TL curve of PbFCl consists of a dominant band peaking at 167 K with a shoulder at about 152 K and four relatively weak bands peaking at 113, 125, 198, and 233 K. The isothermal decay curve indicates that the TL band peaking at 167 K obeys the first-order kinetic process. The trap parameters are obtained using fitting method. The annealing experiment in air shows that the oxygen contamination can quench the luminescence and increase the traps responsible for the TL bands in the range of 113-152 K.     

采用R134a和R600a制冷剂系统毛细管特性分析

建立毛细管模型并通过实验数据验证了模型,给出制冷剂的干度x、温度t、速度W、压力P沿毛细管长度的变化关系,研究了毛细管的内直径、长度、冷凝温度、过冷度等因素对毛细管内R134a、R600a两种制冷剂的质量流量的影响.     

移动荷载作用下的桥梁振动及其TMD控制

为了全面地了解移动荷载作用下桥梁的振动机理及其调质阻尼器(TMD)控制,将列车简化成移动简谐力模型,对列车过桥时桥梁的振动形态幅频特性作了详细的探讨。然后论述了移动荷载作用下的TMD控制。给出了桥梁在不同速度下的幅频特性曲线以及TMD控制的质量比影响曲线,揭示了移动荷载作用下的桥梁振动及其控制的特点,同时为进一步的桥梁振动控制提供详尽的参考数据。     

基于增量谐波平衡法的齿轮系统非线性动力学

利用增量谐波平衡法研究了一类考虑时变啮合刚度和间隙的直齿轮副的非线性动力学,建立了这类模型的解的统一形式。同时研究了系统的分岔特性以及阻尼比、外激励幅值对系统幅频曲线的影响。利用本文结果可以得到任意精度的近似解,从而可以更好地分析和控制齿轮系统的动力学。最后,指出了其它文献中未注意到的问题。     

复杂弹性耦合隔振系统建模及其优化设计

复杂弹性耦合隔振系统是在多层隔振系统中考虑中间筏体和基础的弹性而形成的一类隔振系统，提出了关于这类复杂隔振系统子结构建模的新方法，并用该方法建立了二维复杂弹性耦合隔振系统的动力学方程。并在此基础上进一步提出了一种新的基于小生境的自适应遗传优化算法，运用该算法对二维复杂弹性耦合隔振系统基于系统功率流传递的最优化设计。