Abaqus / Dynamics [动力学] / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Steel Structure [钢结构] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[ABAQUS][Midas][FEM] Modal Analysis of Steel Box Beam [钢箱梁的模态分析]

Modal Analysis of Steel Box Beam [钢箱梁的模态分析] 【1】Midas Gen model 【2】Midas2Abaqus Model 【3】Abaqus Model 【4】Midas Gen Results (1) Mode 1 (2) Mode 2 (3) Mode 3 【5】Abaqus Results (1) Mode …

FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Midas / Steel Structure [钢结构] / Structural Analysis [结构分析] / Structural Design [结构设计] / Structural Engineering [结构工程]

[Midas Gen][结构分析] 带加劲肋钢板有限元分析

工字型钢为主梁,槽钢为铰接次梁,铺设钢板,钢板铰接支撑在钢梁上。左模型钢板底设置角钢加劲肋,间距500mm,右模型为纯钢板。整个结构尺寸为1000mmx2800mm,钢板施加竖向均布荷载。 整体模型 钢梁 钢板竖向位移 (左模型,角钢的最大竖向位移为2mm,最大相对位移为1.5mm,角钢挠度为 1/(1.5/1000)=1/666;钢板的最大竖向位移为2.2mm,分布于跨中,最大相对位移为0.3mm,相应的挠度为1/(0.3/500)=1/1666;右模型:跨中位移最大,最大竖向位移为17.4mm,最大相对位移为17mm,相应的板的挠度为 1/(17/1000)=1/58。) 钢板的Von-Mises应力 (左模型:钢板的最大应力为60Mpa,主要集中在角钢端部的局部范围;右模型:钢板的最大应力为83Mpa,主要集中在跨中较大范围。) 注释 ( Comments )   ( 如果您发现有错误,欢迎批评指正。邮箱:jidong_cui@163.com . 如果您喜欢这篇博文,请在上面给我 点个赞 吧! 🙂   🙂      ( If you found any mistakes in the post, please let me know. Email : jidong_cui@163.com. If you …

FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / My Software [我的软件] / Programming [编程] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[有限元][编程][日记] PFSAP: 平面框架弹性静力分析程序

旧博客(2013年)中的日记,当初学习有限元时候做的笔记,现转移到 www.jdcui.com 备份!!! 最近一段时间决定开始认真地去学有限元了,基本的理论应该认真地去学好,很重要,没有理论为前提,研究很难深入下去,且根本无法去应用,更别说把程序当成工具了,简直就是被程序玩弄。所以,要多看书,多思考,多动手, 学习基本理论。 为此,初学FEM的过程中,写了个十分十分简单的小程序:PFSAP,即平面框架结构分析程序。前两天刚刚完成。PFSAP包括简单的前后处理,通过图形操作建立模型,可以进行一般的平面桁架、刚架、组合结构的静力分析,类似结构力学求解器,当然功能简单很多。做这个东西主要是想体验一下。以下是程序界面: 下面测试一个简单的桁架例子,参考教材 — 同济大学朱慈勉老师编的《结构力学》下册,例8-1桁架例子。 (1)建立模型,指定支座,施加节点荷载。 (2)分析,查看变形图 (3)查看轴力图 (3)查看支座反力   记录一下,改天再详细测试一下其他的例子 😯 …… 小结:学习有限元,动手实践很重要,实践包括用通用的有限元程序去操作,也包括自己编些小程序来体验;因为公式都是那样,不同的书虽然讲得有深有浅,但是当你看多了以后,看懂了以后,再继续看下去单纯从书面来获得的东西就越来越少了,这时候如果能动手实践一下,那么理解会更加深刻,也能够明白里面的一些比较关键的东西。所以我认为,学任何东西都有下面一个过程:听懂->看懂->做出来->创造。这几个过程都叫“懂”了,但是懂的深度是逐渐加深的,当然要想向着更高的高度发展,要付出越来越多的精力和努力。 附上【Video】 微信公众号 ( Wechat Subscription) 欢迎关注 “结构之旅” 微信公众号

Abaqus / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Structural Design [结构设计]

Abaqus 有限元节点模拟小结

Abaqus 有限元节点模拟小结,记录几点小体会:(1)网格质量十分影响收敛(2)约束条件的设置影响计算结果(3)熟悉 .INP文件 可以提高工作效率(4)应该建立良好的个人习惯,有助于修改模型、查找问题。接下来 做进一步 归纳和对比,提高效率… … from 崔济东,www.jdcui.com, CJD, JidongCui

Abaqus / Earthquake Engineering [地震工程] / FEM Analysis of Structural Components [构件有限元模拟] / Paper [论文] / Reinforced Concrete [钢筋混凝土] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[论文][Paper]基于试验的ABAQUS混凝土塑性损伤参数取值方法(Determination of Damage Parameter of ABAQUS CDP Model Based on Test Data)

在ABAQUS的混凝土塑性损伤本构中,塑性损伤参数是影响钢筋混凝土构件行为的重要参数,其取值不仅影响卸载或反向加载的刚度,且直接对构件应变成分有很大影响.对国内外多组混凝土单轴往复压、拉试验数据进行统计分析及数据拟合,提出了一种新的塑性损伤参数的取值方法.与其他方法的比较及数值试验均表明,该方法能较准确地反映真实的混凝土退化特性,并且相对于其他损伤参数取值方法形式更为简洁,便于使用.

Earthquake Engineering [地震工程] / Finite Element Method [有限元法] / Paper [论文] / Performance Based Seismic Design [抗震性能设计] / Reinforced Concrete [钢筋混凝土] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[论文][Paper]Deformation Limits of L-Section RC Shear Walls (L形RC剪力墙的变形指标)

In order to establish the relation between damage state and member deformation of the L-section RC shear wall, 216 FE models designed to meet the requirements of the Chinese codes were set up. The analysis fully considers the variation of parameters including axial load ratio and shear span ratio etc. According to the results, criteria of classifying failure modes of L-section RC shear walls are proposed. Failure modes are determined by shear-span ratio, moment-shear ratio and end columns’ reinforcement ratio. Deformation limits corresponding to respective performance levels are put forward. Fitted formulas of calculating the limits are also presented. It is shown that the categorization criteria are reliably accurate in predicting failure modes. Deformation limits of a given L-section RC shear wall could be determined via axial load ratio and moment-shear ratio. The fitted formulas possess a satisfactory correlation with numerical results.

Abaqus / Finite Element Method [有限元法] / Structural Engineering [结构工程]

Torsion analysis by thermal analogy with Abaqus (Abaqus热比拟扭转应力分析)

稳态热传导的控制方程与经典扭转理论的控制方程具有相似性。我们可以通过比拟,在通用有限元软件中利用稳态热传导分析的功能进行扭转问题的分析。本文结合Abaqus软件,通过一个实例说明这个比拟的具体过程。(The steady heat conduction problem and the classic torsion theory have analogy in their control partial differential equations. We can conduct a torsional analysis making use of the steady analysis fuction in general finite element program. This post gives an example on how to do torsion analysis as thermal analogy with Abaqus.)

ANSYS / Finite Element Method [有限元法] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

Torsion analysis by thermal analogy with ANSYS (ANSYS热比拟扭转应力分析)

稳态热传导控制方程与扭转控制方程具有相似性。利用ANSYS中的稳态热传导分析功能通过比拟的方法进行截面的扭转应力分析。The steady heat conduction problem and the classic torsion theory have analogy in their control partial differential equations. We can conduct a torsional analysis making use of the steady analysis fuction in general finite element program.This post gives an example on how to do torsion analysis as thermal analogy with ANSYS.

ANSYS / Finite Element Method [有限元法]

Analysis of a Euler–Bernoulli beam with ANSYS [ANSYS 欧拉-伯努利梁分析]

欧拉伯-努利梁理论(Euler–Bernoulli beam)又称为工程梁理论(Engineering beam theory)或者经典梁理论(Classical beam theory)。欧拉梁不考虑剪切变形,与铁木辛柯梁(Timoshenko beam)相对。前面一篇博文《Analysis of a Euler–Bernoulli beam with Abaqus [Abaqus欧拉-伯努利梁分析]》复习了Abaqus中利用欧拉梁单元B23和B33单元进行悬臂梁的模拟,本文接着看看在 ANSYS APDL 中如何利用欧拉梁单元进行同样的分析。

Abaqus / Finite Element Method [有限元法] / Structural Engineering [结构工程]

Analysis of a Euler–Bernoulli beam with Abaqus [Abaqus欧拉-伯努利梁分析]

复习有限元知识,利用 Abaqus 进行欧拉伯努利梁单元的分析。欧拉伯努利梁理论(Euler–Bernoulli beam)又称为工程梁理论(Engineering beam theory)或者经典梁理论(Classical beam theory)。欧拉梁不考虑剪切变形,与铁木辛柯梁(Timoshenko beam)相对。Abaqus中的B23和B33单元为欧拉梁单元。