Modeling uniaxial tensile deformation of polycrystalline Al using CPFEM

The crystal plasticity finite element modeling （CPFEM） is realized in commercial finite element code ABAQUS with UMAT subroutine on the basis of the crystal plasticity theory of rate dependent polycrystal constitutive relations in the mesoscopic scale. The initial orientations obtained by electron backscatter diffraction （EBSD） are directly input into the CPFEM to simulate the mechanical response of polycrystalline 1050 pure Al in uniaxial tensile deformation. Two polycrystal models and two tensile strain rates were used in the simulations. The stress-strain curves of tensile deformation were analyzed. The predictions and the corresponding experiment result show reasonable agreement and slight deviation with experiments. The flow true stress of strain rate 0.01 s^-1 is higher than that of strain rate 0.001 s^-1. At the strain less than 0.05, the stress saturated rate of the experiment is higher than the simulated results. However, the stress saturated rate of the experiment becomes gentler than the corresponding simulated predictions at the strain over 0.05. Also, necking was simulated by the two models, but the necking strain is not well predicted. Tensile textures at strain 0.25 were predicted at the low strain rate of 0.001 s^-1. The predictions are in good accord with the experimental results. 2008 University of Science and Technology Beijing. All rights reserved.

GPU-ACCELERATED FEM SOLVER FOR THREE DIMENSIONAL ELECTROMAGNETIC ANALYSIS

A new Graphics Processing Unit(GPU) parallelization strategy is proposed to accelerate sparse finite element computation for three dimensional electromagnetic analysis.The parallelization strategy is employed based on a new compression format called sliced ELL Four(sliced ELL-F).The sliced ELL-F format-based parallelization strategy is designed for hastening many addition,dot product,and Sparse Matrix Vector Product(SMVP) operations in the Conjugate Gradient Norm(CGN) calculation of finite element equations.The new implementation of SMVP on GPUs is evaluated.The proposed strategy executed on a GPU can efficiently solve sparse finite element equations,espe-cially when the equations are huge sparse(size of most rows in a coefficient matrix is less than 8).Numerical results show the sliced ELL-F format-based parallelization strategy can reach signi?cant speedups compared to Compressed Sparse Row(CSR) format.

Finite element method for viscoelastic medium with damage and the application to structural analysis of solid rocket motor grain

This paper studies the damage-viscoelastic behavior of composite solid propellants of solid rocket motors(SRM).Based on viscoelastic theories and strain equivalent hypothesis in damage mechanics,a three-dimensional(3-D)nonlinear viscoelastic constitutive model incorporating with damage is developed.The resulting viscoelastic constitutive equations are numerically discretized by integration algorithm,and a stress-updating method is presented by solving nonlinear equations according to the Newton-Raphson method.A material subroutine of stress-updating is made up and embedded into commercial code of Abaqus.The material subroutine is validated through typical examples.Our results indicate that the finite element results are in good agreement with the analytical ones and have high accuracy,and the suggested method and designed subroutine are efficient and can be further applied to damage-coupling structural analysis of practical SRM grain.

Software for Acoustic Design

We present the СATEС software, which implements the solution to the problems of computational acoustics. The software is based on the use of the superelement method and finite element modeling algorithms, in-cluding hydrodynamic noise. The paper presents the main possibilities of software for solving acoustic design problems. .

F_n指标法在建立保靖复式构造裂缝分布模式中的应用

复式构造裂缝分布模式和裂缝密集带的预测是油气勘探中的难点和关键技术 .本文在地质模型、数学模型和力学模型的基础上 ,提出了 Fn 指标法 ,建立了模拟复式构造裂缝分布模式的方法 ,直接预测了复式构造裂缝密集带 .并对保靖复式构造横剖面的裂缝分布模式进行 Fn 指标法的实际应用 ,得出本区最有利的油气圈闭构造为腾家湾背斜裂缝带 ,解决了最大剪应力法难以解决的问题 .

设置F-ved框架动力响应的数值分析

用 Ansys有限元软件模拟了 F- ved被动阻尼器 ,得到了 F- ved的滞回曲线 ;并对设置 F- ved的异型柱框架的线性地震反应进行了控制分析。

轴对称双倒易边界元法的f函数及其奇性处理

基于右端项为径基函数的三维泊松方程,推导了轴对称情况下双倒易边界元方程求和形式的 f函数通式.通过对f函数取积分平均和根据计算区域特点选取不同类型的 f函数组合,消除了f函数在对称轴上呈现奇性的不足.通过计算轴对称实心圆柱体和球体的非稳态导热问题,很好地验证了对f函数的选择和处理的可行性.

有损耗波导中非线性TE波的数值模拟

本文发展了一种以有限元技术为基础的数值方法，用它分析有损耗波导中的非线性ＴＥ模．在这种方法中，非线性有损耗波导中ＴＥ波与功率有关的复传播常数和局城电场分布，可从这种波导直接得到，没有任何近似．作为这种方法的应用，计算了非线性有损耗波导系统中ＴＥ０模的功率色散关系和电场分布．

基于MIMPS教学法的“光纤通信原理”实践教学模式探索

"光纤通信原理"是通信工程专业的专业基础课,由于理论枯燥、专业性较强,学生在实践学习中不喜欢开动脑筋.借鉴了MIMPS教学法,探索革新实验项目,将实验项目模块化,从而增加实验课程的创新性,提高学生的学习乐趣.

F型交通标志杆优化设计研究

F型交通标志杆作为交通标志结构的一种形式,被广泛应用在道路交通工程中。目前,国内对F型交通标志杆的设计生产,因设计理论不够完善,而不能够充分发挥材料的性能。针对此问题,提出一种惩罚函数理论结合ANSYS的设计优化思想,并选取4种不同型号的F型交通标志杆作为优化研究对象。研究结果表明:F型交通标志杆的应力控制截面位于横梁根部与立柱的根部,变形控制截面位于横梁端部与立柱柱顶;在优化的过程中,横梁与立柱截面形式逐渐趋于变截面,结构受力更加均匀;相对于方形截面,圆形截面的F型交通标志杆优化的空间更大。

矩阵F算法的一种改进算法

论述了Ｆ线与列上零位组之间的联系：在矩阵元素为有理数的假定下，简化了矩阵Ｆ算法的证明：改进了矩阵Ｆ算法．从而提高了其运算效率．

考虑相关因素对F形交通标志杆优化设计的影响

交通标志是向公路使用者传递信息的一种安全设施,为发挥材料潜力、优化使用,在已有的方管F形交通标志的基础上,首先进行优化设计,再改变其横梁的尺寸,利用有限元软件建立模型,对改进后的方管F形交通标志进行分析.结果表明:梁和柱的根部是F形交通标志结构最大应力的接种区域,梁端和柱顶发生最大变形,在立柱相同且横梁截面尺寸相同的情况下,横梁长度越短,结构优化空间越大,优化结果更趋向于变截面.研究成果可为变截面交通标志结构的设计提供依据.

基于离散元-有限差分耦合的轨枕垫对有砟道床横向阻力的影响机制

轨枕垫(USP)因其良好的减震性能已广泛应用于铁路轨道结构,现有研究大多集中于USP对轨道结构刚度和振动响应的影响,但对有砟道床横向阻力影响的研究很少。为深入分析USP对道床横向阻力的影响并揭示其作用机理,建立轨枕-USP-有砟道床-路基三维系统的精细化离散元-有限差分(DEM-FDM)耦合数值模型,采用典型重载铁路有砟道床横向阻力现场实测结果对模型进行标定和验证,进而模拟分析不同工况组合下USP对轨枕不同位置处(枕底、枕侧和枕端)的横向阻力、道砟颗粒运动和粒间接触力等宏微观指标的影响机制。研究结果表明:在相同的轨枕横向位移下,相较于无USP的轨枕,带USP的轨枕其枕底道砟颗粒运动范围更大,横向阻力也更大,且横向阻力增加部分主要来源于枕底USP的不平整性;USP刚度越大,道床横向阻力也越大;采用USP可增加枕底的横向剪应力和最大法向接触力,且两者数值均随USP刚度的增大而增大。

Sensitivity analysis of fatigue life prediction for deepwater steel lazy wave catenary risers

Steel lazy wave catenary riser (SLWR) has been an attractive choice for deepwater oil field developments. However, fatigue is a critical issue in assessing the feasibility of applying SLWR to large motion vessels such as floating production storage and offloading (FPSO) or semi-submersibles. In this work, the time-domain fatigue analysis of SLWR was adopted for better representing the structural nonlinearity, fluid load nonlinearity and riser-soil nonlinear interaction. The Palmgren-Miner rule was employed for the fatigue life prediction along the riser length. The main purpose of this analysis is to present sensitivity analyses of SLWR fatigue life under various input parameters, which include the structural damping, the hydrodynamic coefficients along the riser, the seabed stiffness, the vessel motions, etc. The analyses indicated the strong dependence of the riser fatigue life on these parameters. The results can help designers to understand the dynamic behavior of the SLWR and provide guidance for selection of some critical parameters that are used in the fatigue design.

Cascadic multigrid methods for parabolic problems

In this paper,we consider the cascadic multigrid method for a parabolic type equation.Backward Euler approximation in time and linear finite element approximation in space are employed.A stability result is established under some conditions on the smoother.Using new and sharper estimates for the smoothers that reflect the precise dependence on the time step and the spatial mesh parameter,these conditions are verified for a number of popular smoothers.Optimal error bound sare derived for both smooth and non-smooth data.Iteration strategies guaranteeing both the optimal accuracy and the optimal complexity are presented.

基于响应面法和ARO算法的桥梁有限元模型修正

针对桥梁结构模型修正过程中计算量大、全局寻优难等问题,提出一种基于响应面法和人工兔优化算法(artificial rabbits optimization, ARO)的桥梁有限元模型修正方法。该方法通过F检验法明确对结构响应影响显著的参数并建立响应面模型作为桥梁有限元模型的代理模型进行迭代计算,然后通过静动力联合修正法基于特征响应的响应面模型计算值和试验值构建目标函数,并通过人工兔优化算法对目标函数进行迭代计算进而获得精确的有限元模型参数。采用该方法对变截面连续刚构黄河特大桥有限元模型进行修正,结果显示:基于显著性分析结果建立的桥梁响应面模型相关系数大于0.98,且平均绝对误差低于0.05;模型修正后主梁关键截面竖向位移最大相对误差由32.97%降至5.72%,平均相对误差由20.67%降至3.61%,桥梁前3阶竖向自振频率平均相对误差仅为0.18%。可见,采用所提方法修正的模型能用于评价桥梁结构实际受力性能。

利用有限单元法模拟二维MT倾子响应

在二维地电模型中,考虑到大地电磁测深(MT)倾子响应依赖于横电(TE)模式的数值模拟问题,笔者采用矩形网格单元和双二次插值对MT的倾子响应进行求解。首先,给出了二维地电条件下的边值问题和变分问题,并通过有限单元法对模型进行单元剖分、插值、积分和整体合成;其次,通过求解复系数方程组得到了每个节点的电场值;最后,采用差分方法求得电场沿横向和垂向的偏导数值,从而计算出二维MT的倾子响应。通过对2个二维地电模型的倾子响应进行数值模拟,获得了倾子响应的实部、虚部和振幅,结果很好地反映了不均匀体的横向分布情况。

舌侧矫治器关闭间隙上前牙牙周膜应力变化的三维有限元分析

目的:利用已有的舌侧矫治三维有限元模型并进行加力运算,分析个体化舌侧矫治滑动法关闭上颌拔牙间隙阶段,在颊、腭侧不同力值、不同加力组合方式加力时,上前牙的牙周膜应力分布规律,指导临床应用。方法:建立舌侧矫治三维有限元模型,在ANSYS 11.0软件中分别模拟:(1)上颌第二磨牙作为支抗牙进行单独颊侧加力(力值0.75 N、1.00 N、1.50 N);(2)单独腭侧加力(力值0.75 N、1.00 N、1.50 N);(3)颊、腭侧同时加力(颊侧加力1.00 N+腭侧加力0.50 N、颊侧加力0.75 N+腭侧加力0.75 N、颊侧加力0.50 N+腭侧加力1.00 N),分析3种加力方式下上前牙牙周膜的最大主应力、最小主应力和von Mises应力的峰值及分布。结果:(1)单纯颊侧加力时(0.75 N、1.00 N、1.50 N)最大主应力:初始,在侧切牙牙周膜唇侧颈部及尖牙牙周膜腭侧及远中颈部均受压应力,随着加力增大,压应力值及牙周膜受压应力范围增大。最小主应力:初始,在侧切牙牙周膜腭侧颈部及尖牙近中颈部受拉应力,随着加力增大,拉应力值及牙周膜受拉应力范围增大,在中切牙的近、远中颈部牙周膜也出现拉应力区。von Mises应力:初始,牙周膜受应力区集中体现的部位为侧切牙唇、腭侧颈部及尖牙远中颈部,随着加力增大,应力值及牙周膜受力范围向根方扩大,最终,尖牙近中颈部牙周膜也出现应力集中区。(2)单纯腭侧加力(0.75 N、1.00 N、1.50 N)最大主应力:初始,尖牙牙周膜远中偏腭侧颈部,及侧切牙远中偏颊侧和腭侧颈部的牙周膜受压应力,随着加力增大,压应力值及牙周膜受压应力范围增大。最小主应力:初始,侧切牙远中邻面颈部及尖牙近中邻面颈部受拉应力,随着加力增大,拉应力值及牙周膜受拉应力范围增大。von Mises应力:初始,牙周膜受应力区集中于尖牙腭侧及近远中邻面偏腭侧的颈部,随着加力增大,应力值及牙周膜受力范围增大,最终在尖牙牙周膜颈部腭侧远中处出现了应力集中区。(3)颊腭侧同时加力时:最大主应力:压应力一直应力集中于尖牙远中偏腭侧颈部牙周膜。最小主应力:拉应力的应力集中区在颊侧加力大于腭侧加力时为侧切牙腭侧颈部牙周膜,随腭侧加力的增大,拉应力应力集中区转移到尖牙牙周膜的近中颈部。von Mises应力:颊腭侧同时加力,牙周膜所受的综合应力较单纯颊(腭)侧加力小。结论:单纯颊侧加力关闭拔牙间隙时,侧切牙及尖牙牙周膜为主要应力集中区,应力大小和范围随施力增大而增大;单纯腭侧加力关闭拔牙间隙时,尖牙牙周膜为主要应力集中区,当力值增大过程中,应力大小和范围增大;采用颊、腭侧不同加力方式组合,压应力的应力集中点均在尖牙远中牙周膜区域,拉应力的应力集中区颊侧加力大于腭侧加力时出现在侧切牙腭侧颈部,随腭侧加力力值增大转移到尖牙近中;综合应力分布情况下颊侧加力1.00 N+腭侧加力0.50 N时,牙周膜应力分布更为均匀,同时应力水平最小。

板料成形数值模拟进展

在给出板料成形的典型成形过程、物理过程与力学模型的基础上，评述了板料成形数值模拟的发展历史和最新进展，包括成形过程与成形缺陷模拟发展，常用材料模型与壳体模型，接触摩擦处理及汽车覆盖件成形应用，文末指出了该领域的发展趋势。

俯冲带的负浮力及其影响因素

基于Ｍｕｒｎａｇｈａｎ－Ｂｉｒｃｈ状态方程，计算了密度Ｐ、热膨胀系数ａｖ、定压比热ｃｐ等物性参数在上地幔温压条件下的分布，给出了热传导系数ｋ在上地幔温压条件下的分布．采用准动力学计算方案，用有限元方法计算了板块不同俯冲速度、角度、不同厚度及不同俯冲深度情况下俯冲带的温度分布和密度分布．计算了不同俯冲模型下俯冲带的负浮力及其对岩石层板块形成的等效应力，发现负浮力在俯冲过程中是变化的，俯冲速度和板块厚度对其有明显的影响，在稳定俯冲状态，负浮力约为（１．５－２．３）×１０１３Ｎｍ－１，等效张应力约为０．２５－０．２９Ｇｐａ．