曲线坐标系下考虑植被影响的三维水沙数学模型

建立曲线坐标系下的三维水流泥沙湍流运动模型模拟弯曲渠道内布置水生植被后的水流结构和河床变形分布,计算了试验室60o弯道内流经植被的水流流速平面结构和断面分布以及不同植被布置情况对水流泥沙运动和床面变形的影响。数值结果较好地再现了试验规律。计算结果表明在弯道内布置植被会改变水流流速分布情况:植被覆盖区域的水流流速降低、弯道内二次流减弱和泥沙运动减弱,而非植被覆盖区域的水流流速增大、断面二次流依然存在且泥沙运动加剧。通过比较两种水生植被布置条件下的床面变形情况,发现合理布置植被可以减缓凹岸的泥沙侵蚀,但也会加剧凸岸的泥沙淤积。     

海岸裂流的浮子示踪法实验测量

研究模型实验中采用浮子示踪法测量沙坝海岸裂流的方法,讨论了该方法的具体技术实现和测量结果的精度。实验中裂流由波浪在垂直岸线的直墙上的反射所形成的两列交叉的波浪生成。通过处理CCD图像的浮子轨迹得到了流场的详细速度分布,如旋涡分布等,显示了该方法优于流速仪定点测量的一些特点。与ADV流速仪测量结果的对比表明,由浮子轨迹得到的表层平均流速具有可靠的精度,特别是也可以应用于波浪破碎产生的裂流这样复杂流场的测量。     

长江洪水期三峡工程对长江口水动力特性及污水稀释扩散影响的数值模拟研究

运用ECOMSED建立了长江口的水动力模型。潮位和流速的验证结果表明模型能够较好地反应长江口的水动力特性,可以应用于长江口的实际计算。对2010年7月长江发生的大洪水对长江口的水动力特性的影响进行了模拟。模型计算结果表明,由于三峡工程的蓄水作用,使得长江口附近的流速发生明显的减小,对污水的稀释扩散和水环境也会产生一定的影响。上海三个排污口分别排出稀释度为1000的污水时,由于三峡工程的蓄水,上游来水量相应减少,不利于上海排出污水的稀释扩散。     

The failure processes analysis of rock slope using numerical modelling techniques

The slope failure process includes crack initiation, propagation and coalescence during the formation of a slip surface (small deformation stage) and block movement, rotation and fragmentation during the sliding process (large deformation stage). Neither the finite element method (FEM) nor the discontinuous deformation analysis method (DDA) can solve such problems satisfactorily due to the complex mechanical behaviour of slope failure. To study the entire process of slope failure, we develop here a model that combines the FEM and DDA approaches. The main concept of this approach is to first apply FEM to model crack growth behaviour and then automatically switch to the DDA module to model the post-failure process when the slip surface forms. The efficiency and simplicity of this approach lies in keeping the FEM and DDA algorithms separate and solving each equation individually. The heterogeneous nature of the slope material at the mesoscopic level is considered by assuming that the mechanical properties of individual elements follow a Weibull statistical distribution. The slope models are progressively destabilized by the critical gravity approach, and both the failure onset and the slope collapse process are analysed. Our modelling reveals that shear cracks first initiate at the toe of slope and subsequently promote the propagation of tensile fractures due to the stress accumulation at the shear crack tips. Throughout the entire failure process, failure in tension occurs at a higher rate than shear failure and plays a dominant role in the formation of the slip surface. The effects of slope angle and pre-formed cracks on the post-failure process are studied using the proposed method. This study demonstrates that the modelling approach outlined herein is able to tackle the fundamental problems of rock slope failure and offers a better understanding of the slope failure mechanisms at both the macroscopic and microscopic levels.     

Application of the Cosserat continua to numerical studies on the properties of the materials

The finite element models of Cosserat continuum in two- and three-dimensions are presented. The size effects of a cantilever beam and a micro-rod, the well-posedness, the mesh-independent solutions of the boundary value problems with non-associated elastoplastic and strain softening constitutive behavior, and the progressive failure of the two- and three-dimensional vertical excavations are studied. Numerical results illustrate that the proposed Cosserat continuum models are capable of reflecting the size effects of micro-structures, preserving the well-posedness of the boundary value problem characterized by the strain localization, ensuring mesh-independent solutions, and simulating the entire progressive failure process occurring in engineering structures.     

基于PCI总线高速数据采集卡的SDRAM控制器设计

为了满足基于PCI总线的高速数据采集卡中大批量数据存取使用需要,设计了一种工作在整页模式下的SDR SDRAM控制器;简单介绍了SDRAM工作原理,详细阐述了SDR SDRAM控制器模块的组成结构及其在整页模式下读写状态机实现方法;使用Al-tera公司的FPGA器件EP1C6Q240C8N,在QuartusⅡ6.0开发环境下进行仿真并应用于实验室自行研发的数据采集卡进行实验验证,通过DMA方式读取SDRAM中数据,PCI总线传输速率能达到85MB/s以上,实验结果证实了该控制器的实用性和正确性。     

A generalized Hill’s lemma and micromechanically based macroscopic constitutive model for heterogeneous granular materials

Based on the Hill’s lemma for classical Cauchy continuum, a generalized Hill’s lemma for micro–macro homogenization modeling of gradient-enhanced Cosserat continuum is presented in the frame of the average-field theory. In this context not only the strain and stress tensors defined in classical Cosserat continuum but also their gradients are attributed to assigned micro-structural representative volume element (RVE), that leads to a higher-order macroscopic Cosserat continuum modeling and enables to incorporate the micro-structural size effects. The enhanced Hill–Mandel condition for gradient-enhanced Cosserat continuum is extracted as a corollary of the presented generalized Hill’s lemma. The derived admissible boundary conditions for the modeling are deduced to direct the proper presentation of boundary conditions to be prescribed on the RVE in order to ensure the satisfaction of the Hill–Mandel energy condition.With the link between the discrete particle assembly and its effective Cosserat continuum in an individual RVE, the boundary conditions prescribed on the RVE modeled as Cosserat continuum are transformed into those prescribed to the peripheral particles of the RVE modeled as the discrete particle assembly. The micromechanically based macroscopic constitutive model and corresponding rate forms of the macroscopic stress–strain relations taking into account the local microstructure and its evolution are formulated with neither need of specifying the macroscopic constitutive relation nor need of providing macroscopic material parameters.     

基于DSP的电机伺服系统中的模糊PID控制

在电机控制的电动缸往返运动的伺服系统中,电机频繁换向会产生电动缸的幅值响应误差,严重影响了系统的控制精度.针对这一情况,采用新型DSP芯片TMS320F28335的eQEP模块和编码器来实时检测电机的运行位置,并将一种模糊PID技术引入其中,实时修正电机的运行误差,提高了系统的动态性能.详细介绍了系统的组成及控制原理,...     

Application of support vector machines in scour prediction on grade-control structures

Research into the problem of predicting the maximum depth of scour on grade-control structures like sluice gates, weirs and check dams, etc., has been mainly of an experimental nature and several investigators have proposed a number of empirical relations for a particular situation. These traditional scour prediction equations, although offer some guidance on the likely magnitude of maximum scour depth, yet applicable to a limited range of the situations. It appears from the literature review that a regression mathematical model for predicting maximum depth of scour under all circumstances is not currently available. This paper explores the potential of support vector machines in modeling the scour from the available laboratory and field data obtained form the earlier published studies. To compare the results, a recently proposed empirical relation and a feed forward back propagation neural network model are also used in the present study. The outcome from the support vector machines-based modeling approach suggests a better performance in comparison to both the empirical relation and back propagation neural network approach with the laboratory data. The results also suggest an encouraging performance by the support vector machines learning technique in comparison to both empirical relation as well as neural network approach in scaling up the results from laboratory to field conditions for the purpose of scour prediction.     

基于ABAQUS的型钢超高强混凝土短柱抗震延性的研究

为研究型钢超高强混凝土短柱的抗震延性,基于已有的3根型钢超高强混凝土短柱在低周反复荷载作用下的延性试验研究,运用大型有限元分析软件ABAQUS模拟其骨架曲线,并与试验结果进行比较。结果表明,模拟得到的荷载位移曲线与试验结果吻合较好,该方法可以较为准确地预测试验结果,验证了该有限元模型的适用性。