Structural Analysis [结构分析] / Structural Design [结构设计] / Structural Design Code [结构设计规范]

[规范][网壳][笔记] 弹性全过程分析计算网壳稳定安全系数需要考虑构件应力比吗?

实干、实践、积累、思考、创新。 如题,弹性全过程分析(几何非线性分析)计算网壳稳定安全系数需要考虑构件应力比?因为如果看构件应力比,应力比肯定是不满足要求的。这是小伙伴看了前几天分享的 [工程][案例][资料] 某商业中庭钢网壳天窗设计及计算分析[Design and calculation analysis of steel latticed shell skylight in a commercial atrium]  后问的问题,也就是在对比这个4.2的时候,是否需要考虑构件的应力比。问题原自《空间网格结构技术规程》JGJ7-2010 的4.3节 网壳的稳定性计算。 答案是否定的,也就是如果采用几何非线性分析计算网壳稳定安全系数,不需要考虑构件应力比,只要安全系数大于4.2就可以。 我们先看看《空间网格结构技术规程》JGJ7-2010的条文和条文说明。 规范条文 条文说明 由以上内容可看出: (1)规范规定了两种网壳的稳定性分析方法。 方法1:弹塑性全过程分析,也就是同时考虑几何非线性和材料非线性,此时安全系数K要求是2.0。 方法2::弹性全过程分析,也就是只考虑几何非线性,但材料假定为弹性,此时安全系数K要求是4.2。 理论上,方法1才是准确的,方法2是方法1的一个简化或近似,复杂网壳结构应采用方法1。而 4.2/2.0实际上考虑的就是弹塑性和弹性假定下极限承载力的经验比。相当于用简化的方法2,将安全系数K放大为4.2,实际反推的是弹塑性情况下也即方法1计算的承载力K为2,方法2本身是一个简化,用方法2再去看应力比就没意义了。 (2)其实也可以反过来思考,如果用方法2,还要求应力比满足要求,那相当于要求在4.2倍荷载下,结构构件依然保持弹性,这个和规范要求的结构在弹塑性情况下K=2就矛盾了。 …

Abaqus / Dynamics [动力学] / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Midas / My Software [我的软件] / Nonlinear FEM [非线性有限元] / Solid Mechanics [固体力学] / Steel Structure [钢结构] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[Abaqus][Midas2Abaqus][有限元] 隐式和显式方法轴心受压钢管非线性屈曲分析对比

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Abaqus / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Midas / My Software [我的软件] / Programming [编程] / Solid Mechanics [固体力学] / Structural Analysis [结构分析] / Structural Design [结构设计] / Structural Engineering [结构工程]

[Midas Gen][ABAQUS][Midas2Abaqus] Verification Example GNL-1: Geometric nonlinear analysis of a high arch structure [ Midas Gen 验证实例 GNL-1: 高拱结构的几何非线性分析]

【1】Problem Description ( Midas Gen’s Verification Examples GNL-1:  Geometric nonlinear analysis of a high arch structure) Obtain load-displacement relation curves at the point of load application on a 100 m radius, …

Abaqus / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Midas / Nonlinear FEM [非线性有限元] / Programming [编程] / Solid Mechanics [固体力学] / Structural Analysis [结构分析] / Structural Design [结构设计] / Structural Engineering [结构工程]

[Midas Gen][ABAQUS][Midas2Abaqus] Verification Example GNL-6: Snap-back Nonlinear problem [ Midas Gen 验证实例GNL-6: Snap-back 非线性问题]

【1】Problem Description (GNL-6: Snap-back Nonlinear problem from Midas Gen’s Verification Examples) Draw the load-displacement graph. 【2】MODEL Properties Dimension Length 2500 m Element Truss element Material Modulus of elasticity E = …

Abaqus / FEM Analysis of Structural Components [构件有限元模拟] / Finite Element Method [有限元法] / Midas / My Software [我的软件] / Nonlinear FEM [非线性有限元] / Programming [编程] / Research [科研] / Solid Mechanics [固体力学] / Structural Analysis [结构分析] / Structural Engineering [结构工程]

[Midas Gen][ABAQUS][Midas2Abaqus] Verification Example GNL-5: Snap-through Analysis of simply 2D truss [ Midas Gen 验证实例GNL-5: 2D桁架的阶跃分析]

【1】Problem Description (GNL-5: Snap-through Analysis of simply 2D truss from Midas Gen’s Verification Examples) A truss element is subjected to a vertical load at the node 2. Draw the load-displacement …