自复位梁-柱节点的耗能与复位能力协调关系研究

目的 研究自复位梁-柱节点(SCBCJ)的耗能与复位能力间协调关系,提出简化设计方法,从而实现SCBCJ耗能器与预应力筋的合理配置。方法 建立了SCBCJ的理论恢复力模型,对该类节点的复位与耗能能力协调关系展开研究,通过有限元分析验证了简化设计方法的可行性。结果 节点的耗能能力随着复位耗能比R的增大而增加,复位能力随着R的增大而减小;在循环荷载下,SCBCJ滞回曲线呈“旗帜”型,无残余变形,耗能能力较强。结论 所建立的协调关系表达式可以表征SCBCJ耗能与复位能力的协调关系,提出的简化设计方法实现了SCBCJ的耗能与复位能力的合理匹配,解决了设计时耗能器与预应力筋配置问题。

面向复杂载荷工况下的横梁多分辨率拓扑优化

针对复杂载荷条件下加工中心横梁结构的刚度优化问题,提出了一种可以有效降低模型计算规模的高精度拓扑优化方法。首先,对加工中心横梁这类结构复杂、求解规模大的拓扑优化问题进行分析,发现多分辨率拓扑优化方法可以显著降低此类问题的计算成本;其次,为进一步提高计算效率,将自适应梯度分区技术引入到多分辨率拓扑优化方法中,形成一种自适应梯度分区的多分辨率拓扑优化方法,该方法在模型拓扑更新过程中只对特定的低效离散区域进行处理,以达到进一步降低模型计算规模的目的;最后,在加工中心横梁多工况优化中,将自适应梯度分区的多分辨率拓扑优化与传统的优化方法进行对比研究,发现在相同单元网格数量条件下,新的拓扑优化方法的计算速度相较于传统的拓扑优化方法提高了约8倍。

结构实验综合实验平台设计

结构实验是土木工程专业一门必修的实验课程,钢筋混凝土梁的抗弯和抗剪实验是其中的一项重要内容。设计了一体支座、对中系统、垂直度校正器、上梁装置、试件加载系统,最后对实验平台承载力进行了验算。实验平台采用2种形式,一种为自平衡式,另一种为地槽固定式。该实验平台除了用于梁的抗弯实验之外还可以用于柱的抗压实验。

双主轴卧式加工中心横梁结构综合优化设计

为了在降低横梁总质量的同时保证其低阶固有频率和刚度,提出一种结合拓扑结构和尺寸优化的设计方法。使用拓扑优化方法确定横梁内部结构,并对它进行修复;根据修复后横梁的有限元分析结果,以横梁内部的厚度、孔尺寸等多个参数为设计变量,整体最大变形和1阶固有频率为约束条件,采用总质量最小为目标函数建立数学模型。利用多目标遗传算法(MOGA)进行求解,通过CCD试验设计获得初始样本点,并使用Kriging模型建立响应面。经过多次试验发现,横梁的总质量相比于优化前减少了20.3%。

GeV重离子束辐照LiF引起的晶体内部结构改变

高能强流重离子束入射到固体物质中,沿飞行路径的离子能量沉积密度将改变宏观靶物质的温度和压强等,并可能在高压高密条件下产生新的材料缺陷.本文利用兰州重离子加速器装置HIRFL-CSR引出的能量为264 MeV/u的Xe^(36+)离子束,入射到LiF晶体靶物质中,在线测量了LiF的发射光谱,观测到沿离子路径的晶体颜色变化.通过解离方法取得了不同位置处的X射线衍射(X-ray Diffraction)与X射线光电子能谱结果,显示在Xe离子的布拉格峰区域出现了LiF_(3)(LiF+F_(2))结构相,讨论了新的结构缺陷的产生与重离子束能量沉积密度间可能的相关性.这为离子束驱动的高能量密度物理的能量沉积过程提供了一定参考.

梁端弹簧型自复位钢筋混凝土框架基于性能的抗震设计方法

梁端弹簧型自复位框架(self-centering frame, SCF)结构作为一种新型抗震结构体系,通过梁柱节点铰接构造来使整体结构抗侧刚度弱化,并在梁端设置钢板弹簧来给节点设定确定的转动刚度,从而达到地震作用下结构减震和震后结构自复位的目标。在已有理论和试验研究的基础上,对梁端弹簧型自复位框架的抗震设计方法进行了研究,并给出了此类结构的抗震性能水准以及结构的抗震设计流程。结合一幢三层自复位耗能框架结构的设计实例,进行基于性能的结构抗震设计,通过有限元模拟对该结构的动力响应与常规框架进行比较分析。结果表明:梁端弹簧型自复位耗能框架结构具有较小的加速度响应和层剪力响应,以及良好的变形性能。研究结果表明,梁端弹簧型自复位框架结构具有优越的抗震性能。

PEC柱-钢梁摩擦耗能部分自复位组合框架抗震试验研究

为系统研究梁柱采用自复位连接组合框架的抗震机理,选取预拉杆长度设置、PEC柱截面强弱轴布置和柱脚连接方式3个设计参数,设计制作了4榀PEC柱-钢梁梁柱摩擦耗能部分自复位连接组合框架1∶2缩尺试件并进行拟静力抗震试验。通过试验现象观察和数据分析,对试件的滞回特性、抗侧刚度退化、复位能力、滞回耗能等抗震性能进行研究。结果表明:摩擦耗能部分自复位连接通过T形件长圆孔合理设置实现了“设计地震水平阶段实现复位,大震设计水平阶段自复位连接连接转化为伴随出现螺栓承压型受力实现部分自复位”的性能化设计目标;设计地震阶段,试件主要通过辅助摩擦耗能件耗能,且卸载残余侧移小于自复位结构侧移限值(0.3%),在大震作用阶段,试件通过辅助摩擦耗能件与结构构件损伤联合耗能,承载能力仍继续增大,且仍具有部分自复位能力;预拉杆设置有限长度可显著增强结构整体性,PEC柱弱轴布置一定程度上降低了结构整体性,而PEC柱脚采用铰接可显著削弱结构整体性。

功能自恢复预制装配式梁柱节点抗震性能试验研究

为提高预制装配式混凝土梁柱节点的抗震性能,提出利用SMA和ECC材料对预制梁柱节点进行连接。该试验共设计浇筑4个1/2缩尺比例试件,其中包括3个对比试件(现浇钢筋混凝土梁柱节点、预制装配式钢筋混凝土梁柱节点、预制装配式ECC增强梁柱节点)和1个模型节点(预制装配式SMA/ECC增强梁柱节点)。通过低周往复加载试验,分析了各个梁柱节点的破坏机理、承载力和自复位性能,研究了新型材料SMA和ECC应用到预制装配式梁柱节点连接处对梁柱节点性能的影响。研究结果表明:将SMA以及ECC应用到装配式梁柱节点中,虽然会降低节点的初始刚度和耗能能力,但是能够降低节点的残余变形和刚度退化速度,增强节点的延性和自复位能力,节点具有较好的震后功能自恢复能力。

Investigations of microstructures and properties in electron beam welded joints of TiAl to TC4

The normally centered electron beam and non-centered electron beam welding of TiAl to TC4 was investigated in order to analyze the electron beam weldability between TiAl/TC4 dissimilar materials. Macroscopic cold crack easily occurred near TiAl substrate in the joints. The optimal tensile strength was related to the welding heat input. The weld structures were composed of bulky columnar grains and equiaxed grains. The isolated phases consisted of large quantities of α2 -Ti3Al phase, small quantity of B2 phase, γ-TiAl phase and YAl2 phase. Insufficient melting of the base metal occurred in the weld when the beam position leaned to the TC4 side. The tensile strength could be improved when the deflection was limited in the optimum range. Otherwise, non-fusion zone was easily generated in the weld, which led to the low tensile strength.

A practical image reconstruction and processing method for symmetrically off-center detector CBCT system

CBCT scanners have been widely used in angiography,radiotherapy guidance,mammography and oral maxillofacial imaging.To cut detector size,reduce manufacturing costs and radiation dose while keeping a reasonable FOV,the flat panel detector can be placed off-center horizontally.This scanning configuration extends the FOV effectively.However,each projection is transversely truncated,bringing errors and artifacts in reconstruction.In this paper,a simple but practical method is proposed for this scanning geometry based on truncation compensation and the modified FDK algorithm.Numerical simulations with jaw phantom were conducted to evaluate the accuracy and practicability of the proposed method.A novel CBCT system for maxillofacial imaging is used for clinical test,which is equipped with an off-center small size flat panel detector.Results show that reconstruction accuracy is acceptable for clinical use,and the image quality appears sufficient for specific diagnostic requirements.It provides a novel solution for clinical CBCT system,in order to reduce radiation dose and manufacturing cost.

重大改建船的原船重量重心分布推算

文章以“海州湾之星”改建船为例,演算了如何在没有初始重量重心分布的情况下,利用静力学原理推算原船重量重心分布的方法,并利用该方法得到原船空船重量重心分布,核算了改建后船舶的总纵强度,并取得船级社的认可,可为同行提供借鉴。

基于机器视觉的带式输送机高精度煤流检测研究

针对现有基于机器视觉的带式输送机煤流检测方法存在的图像细节缺失、在多处断裂或断裂间距较大区域拟合效果较差的问题,基于直射斜收式激光三角测量原理,提出了一种基于机器视觉的带式输送机高精度煤流检测系统,将线激光发射器布置在带式输送机测量位置正上方并垂直照射煤堆,煤堆随带式输送机匀速运动,利用相机在斜上方实时拍摄包含激光条纹的煤堆表面图像。对煤流检测系统进行标定,包括相机内参数标定和激光平面标定,得到煤堆的高度信息;对煤流截面激光条纹图像进行处理,从提取精度、算法实时性等角度对比分析了灰度重心法和区域骨架法,根据对比结果选用区域骨架法提取激光条纹中心;针对利用图像膨胀操作进行激光条纹断裂修补拟合效果较差的问题,提出采用最小二乘法作为激光条纹断裂修补算法,相较于闭运算,最小二乘法拟合处理的平滑效果更好,精度较高;建立煤流截面积计算模型,通过计算每一帧上煤堆的横截面积,即可得出不同带速下的煤流体积。实验结果表明,当带速分别为0.25,0.5,1 m/s时,煤流检测系统误差均较小,最大误差分别为2.78%,3.61%和3.89%,验证了煤流检测系统具有较高的准确性。

Analytical modeling for rapid design of bistable buckled beams

Double-clamped bistable buckled beams demonstrate great versatility in various fields such as robotics,energy harvesting,and microelectromechanical system(MEMS).However,their design often requires time-consuming and expensive computations.In this work,we present a method to easily and rapidly design bistable buckled beams subjected to a transverse point force.Based on the Euler–Bernoulli beam theory,we establish a theoretical model of bistable buckled beams to characterize their snapthrough properties.This model is verified against the results from a finite element analysis(FEA)model,with maximum discrepancy less than 7%.By analyzing and simplifying our theoretical model,we derive explicit analytical expressions for critical behavioral values on the force-displacement curve of the beam.These behavioral values include critical force,critical displacement,and travel,which are generally sufficient for characterizing the snapthrough properties of a bistable buckled beam.Based on these analytical formulas,we investigate the influence of a bistable buckled beam's key design parameters,including its actuation position and precompression,on its critical behavioral values,with our results validated by FEA simulations.Our analytical method enables fast and computationally inexpensive design of bistable buckled beams and can guide the design of complicated systems that incorporate bistable mechanisms.

Multiple off-axis acoustic vortices generated by dual coaxial vortex beams

As a kind of special acoustic field, the helical wavefront of an acoustic vortex（AV） beam is demonstrated to have a pressure zero with phase singularity at the center in the transverse plane. The orbital angular momentum of AVs can be applied to the field of particle manipulation, which attracts more and more attention in acoustic researches. In this paper,by using the simplified circular array of point sources, dual coaxial AV beams are excited by the even-and odd-numbered sources with the topological charges of l_E and l_O based on the phase-coded approach, and the composite acoustic field with an on-axis center-AV and multiple off-axis sub-AVs can be generated by the superimposition of the AV beams for｜l_E｜ ≠ ｜l_O｜. The generation of edge phase dislocation is theoretically derived and numerically analyzed for l_E=-l_O. The numbers and the topological charges as well as the locations of the center-AV and sub-AVs are demonstrated, which are proved to be determined by the topological charges of the coaxial AV beams. The proposed approach breaks through the limit of only one on-axis AV with a single topological charge along the beam axis, and also provides the feasibility of off-axis particle trapping with multiple AVs in object manipulation.

多波束相控阵天线角度测量方法

在雷达、通信、测控等领域中,基于相控阵天线的幅度和差单脉冲测角技术是基本方法,但该方法通过旋转法向方向图去近似表示子波束方向图,并用一阶泰勒公式近似表示子波束接收信号幅度,从而带来非噪声因素误差,最终导致目标角度估计精度不高。为此,通过相控阵天线同时产生两个形状相同但相互独立的子波束,旋转波束指向中心轴方向的方向图函数来确定两个子波束的方向图函数,并用高阶泰勒公式对子波束接收信号幅度进行近似,从而减少误差。仿真和硬件测试结果表明所提方法能够有效提高测角精度。

Determination of Shear Center of Arbitrary Cross-Section

In structural analysis, it is often necessary to determine the geometrical properties of cross section. The location of the shear center is greater importance for an arbitrary cross section. In this study, the problems of coupled shearing and torsional were analyzed by using the finite element method. Namely, the simultaneous equations with respect to the warping, shear deflection, angle of torsion and Lagrange’s multipliers are derived by finite element approximation. Solving them numerically, the matrix of the shearing rigidity and torsional rigidity is obtained. This matrix indicates the coupled shearing and torsional deflection. The shear center can be obtained determining the coordinate axes so as to eliminate the non-diagonal terms. Several numerical examples are performed and show that the present method gives excellent results for an arbitrary cross section.

一种基于相位差的DBF阵列天线误差校正方法

针对数字波束形成(Digital Beam Forming, DBF)阵列天线阵元位置及相位中心存在误差时,会导致波束形成指向与理论设计指向存在偏差,进而使得比幅曲线发生畸变,造成测向结果出错及天线合成增益降低的现象,研究并提出了一种基于不同入射角下,阵列天线的相位差存在相干性原理,构造相位差误差代价函数,通过最小二乘的方式搜寻出最优阵元位置,完成对阵元位置及相位中心误差校正的方法。通过计算机仿真验证了该方法的可行性,同时在工程化中实现对阵元误差的有效校正。

轨道梁线型高精度测量方法实践

轨道梁施工线型与设计线型最大程度匹配,将提高线路的平顺性,增加乘坐列车的舒适性。本文采用了一种轨道梁活动对中器及测量标志,改进了轨道梁线型高精度测量方法,提高了轨道梁线型测量精度,分析了施工线型成果与设计线型的关系,将对类似轨道梁线型高精度测量工程提供经验参考。

震后可恢复功能钢结构梁柱节点研究进展

在节点设计中采用可恢复功能结构概念,可避免因节点破坏而导致艰难的震后修复工作和巨大经济损失。文中主要对震后可恢复功能钢结构梁柱节点进行介绍,根据可恢复功能实现机理的不同,将这类节点分可更换钢结构梁柱节点和自复位钢结构梁柱节点,并结合国内外学者的研究进展并总结目前研究中的不足,提出震后可恢复功能钢结构梁柱节点未来发展展望。

近断层地震动下摇摆-自复位桥墩连续梁地震反应

为讨论近断层地震动下摇摆-自复位(Rocking Self-Centering,RSC)桥墩连续梁的地震反应及其抗震优缺点。基于OpenSees有限元分析平台讨论了RSC桥墩三维建模方法,通过对6个试验构件的模拟,比较模拟与试验桥墩滞回曲线、预应力筋最大应力等指标,验证了模型准确性。建立设置RSC桥墩和普通钢筋混凝土(Reinforced Concrete,RC)桥墩的上部结构相同的两座连续梁桥,输入3组含有强速度脉冲的近断层地震波进行非线性动力时程分析,对比其抗震性能。结果表明:在0.4 g近断层地震动下,RSC桥墩与普通RC桥墩相比,RSC桥墩的最大位移角为普通RC桥墩的78.1%~97.6%,墩底曲率延性系数仅为普通RC桥墩的24.0%~34.0%,减小了桥墩的最大变形,也减轻了桥墩地震损伤,不利的一点是使用RSC桥墩会导致支座位移增大。RSC桥墩震后的残余位移较小,且预应力筋处于弹性受力阶段,为实现震后桥梁功能的快速恢复提供了条件。