胶焊,点焊和胶接接头应力分布的比较分析

采用三维弹塑性有限元数值分析方法，比较了分析了胶焊，点焊和胶接接头的应力分布情况，结果表明，胶焊接头与胶接接头的应力分布特征值基本相同，仅在焊点区内略有区别，胶焊接头中的胶粘剂有效地降低了点焊接头中焊点的应力，消除了其焊点过级处的应力集中，所得应力分布可合理解释已有强度试验结果。     

轿车覆盖件成型过程动态仿真有限元建模技术研究

研究了轿车覆盖件冲压成型过程动态仿真中的有限元建模问题，比较了可用于覆盖件成型分析的几类单元；讨论了单元的选取和单元划分的若干原则。并结合Santana2000型轿车侧框和NUMISHEET’96的S－Rail标准考题，说明了有限元仿真模型对成型仿真结果的影响。     

南京长江二桥斜拉桥施工过程稳定性分析

针对南京二桥南汊钢斜拉桥,考虑结构的非线性和构件的极限承载能力,计入施工过程的变形和应力的叠加效应,用包含梁和索单元的空间组合结构模型,进行了大桥的结构行为分析,着重研究了在施工全过程中的结构稳定性问题。     

高等级沥青路面基层底裂缝三维数值分析

裂缝尖端应力强度因子是判断裂缝开裂扩展的重要指标,本文应用有限元软件ABAQUS,建立了20结点等参立方体单元的有限元模型,采用奇异等参元法及断裂力学理论,对路面基层裂缝问题进行了数值分析,分析探讨了路面结构参数对基层裂缝应力强度因子的影响及应力强度因子K1和K2在基层裂缝扩展过程中的变化规律,并预估了裂缝的扩展寿命。计算结果真实反映路面结构的现象和规律,可为高等级公路抗裂设计提供依据。     

尼铁现代化项目中矩形空心桥台的优化设计

当前常用的时速200 km的铁路矩形空心桥台参考图中的桥台截面尺寸偏厚,安全富余量很大。为节约混凝土圬工量,希望在保证安全的前提下减少桥台截面尺寸。首先提出专门针对铁路矩形空心桥台台身截面计算的荷载图示,然后利用这一新的图示对拉伊铁路项目中使用的常规矩形空心桥台进行有限元分析,经过不断试算提出最优的截面尺寸。在钢筋用量基本不变的情况下,新尺寸桥台较原参考图中桥台的混凝土用量减少10%以上。对于项目所在地尼日利亚国水泥价格高昂的情况而言,桥台尺寸的这一优化将产生较大的经济效益。     

A regression and beam theory based approach for fatigue assessment of containership structures including bending and torsion contributions

Container shipping has been expanding dramatically during the last decade. Due to their special structural characteristics, such as the wide breadth and large hatch openings, horizontal bending and torsion play an important role to the fatigue safety of containerships. In this study the fatigue contributions from vertical bending, horizontal bending and torsion are investigated using full-scale measurements of strain records on two containerships. Further, these contributions are compared to results from direct calculations where a nonlinear 3D panel method is used to compute wave loads in time domain. It is concluded that both bending and torsion have significant impacts on the fatigue assessment of containerships. The stresses caused by these loads could be correctly computed by full-ship finite element analysis. However, this requires large computational effort, since for fatigue assessment purposes the FE analysis needs to be carried out for all encountered sea states and operational conditions with sufficient time steps for each condition. In this paper, a new procedure is proposed to run the structure finite element analysis under only one sea condition for only a few time steps. Then, these results are used to obtain a relationship between wave loads and structural stresses through a linear regression analysis. This relation can be further used to compute stresses for arbitrary sea states and operational conditions using the computed wave loads (bending and torsion moments) as input. Based on this proposed method for structure stress analysis, an efficient procedure is formulated and found to be in very good agreement with the full-ship finite element analysis. In addition it is several orders of magnitude more time efficient for fatigue assessment of containership structures.     

Catenary riser sliding and rolling on seabed during induced lateral movement

Catenary risers have an interaction zone with the seabed, usually referenced as flowline. Movements in this region can be induced by sea currents and large offsets in floating unit, leading to touchdown position changes and affecting internal loads along riser length. In this work the contact flowline-seabed is modeled including sliding and rolling friction. Case studies involving large offsets in floating unit and lateral sea currents are solved to better understand the consequences of possible rolling and large sliding. The riser is modeled using a geometrically-exact finite element beam model. The contact is addressed with a new technique to include rotation movements from underlying beam models. This leads to global riser models including complex kinematics, being able to represent scenarios with alternating sliding/rolling and its consequences on internal loads of riser structure. A parametric study is performed to measure the influence of the friction coefficient in tension and torsion along typical flexible pipe and steel pipe catenary risers.     

Dynamic loading history and collapse analysis of the pipe during deepwater S-lay operation

In the deepwater S-lay operations depending on the required stinger radius and rollers configuration, relatively large plastic deformation is induced when the pipe passes over the stinger, under the combined loadings of bending, axial tension, roller reaction force and the pipelay vessel motion. The resulting plastic deformation does not vanish after the pipe leaves the stinger. It accumulates until the pipe reaches the seabed. The inherited residual deformation might reduce the collapse capacity of the pipe under the external pressure loading. The present paper investigates the dynamic loading history of the pipe during the S-lay operation based on a test-verified finite element model, and then calculates the residual plastic deformation of the pipe cross-section after the pipe reaches the seabed. Finally, the nonlinear collapse analysis is implemented based on the modified RIKS method to evaluate the capacity of the installation-induced deformed pipe. The results confirm that the deepwater S-lay operation will lead to obvious plastic deformation of the pipe, which decreases the pipe collapse capacity to some extent.     

城市轨道交通槽形梁设计参数优化研究

以跨径为30 m的城市轨道交通槽形梁为研究对象,采用精细化有限元方法研究槽形梁设计几何参数梁高、道床板厚度及角隅斜率对其力学性能的影响。分析结果表明:槽形梁主梁截面刚度随梁高的增加而增加,在给定跨径30 m的情况下存在最佳梁高1.8 m;道床板厚度与横向跨度有关,横向跨度为4 m时,适宜的道床板厚度是0.26 m;角隅斜率对槽形梁的影响主要表现在结合处的力学性能,推荐使用1:(2.5~3.0)。     

有限元分析在12m标准轨道衡承重梁设计中的应用

在12 m标准轨道衡承重梁设计过程中采用有限元分析,利用Ansys建立承重梁的几何模型和以壳单元shell63为基本单元的承重梁有限元计算模型。计算模型在不同载荷作用下的最大应力以及变形情况,提出在不改变主体结构的情况下对承重梁进行加固。此方法可为12 m标准轨道衡承重梁的结构设计和改进提供理论依据。