首页> 外文会议>Inernational Conference on Structural Integrity >Stochastic Creep Damage Estimation in Pipings with Spatial Non-Gaussian Uncertainties Using Spectral Stochastic Finite Element Method

【24h】

Stochastic Creep Damage Estimation in Pipings with Spatial Non-Gaussian Uncertainties Using Spectral Stochastic Finite Element Method

机译：采用光谱随机有限元法的空间非高斯不确定性的随机蠕变损伤估计

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This study focuses on the development of stochastic finite element based methodology for damage assessment of piping components that carry high temperature fluids. The primary damaging mechanism is assumed to be due to thermal creep. The material properties are assumed to be spatially inhomogeneous and are modeled as 2-D non-Gaussian random fields. A spectral stochastic finite element based methodology is developed where the non-Gaussian random fields are determined by using optimal linear expansion scheme (OLE). The corresponding finite element models for the structure are shown to be functions of a vector of correlated non-Gaussian random variables. Monte Carlo simulations (MCS) are carried out to estimate the 2-D non-Gaussian stress fields, which in turn lead to estimates of the creep damage field at different time instants. The developments are illustrated through a numerical example involving an axisymmetric section of a circular pipe.

机译：本研究重点研究了基于随机有限元的发展，用于携带高温流体的管道组分的损伤评估。假设初级损伤机制是由于热蠕变。假设材料特性在空间上不均匀，并被建模为2-D非高斯随机字段。通过使用最优线性膨胀方案（OLE）确定非高斯随机字段的基于光谱随机有限元的方法。该结构的相应有限元模型被示出为相关的非高斯随机变量矢量的函数。进行蒙特卡罗模拟（MCS）以估计二维非高斯应力场，又导致不同时间瞬间蠕变损伤场的估计。通过涉及圆形管道的轴对称截面的数值示例来示出发展。

著录项

来源
《Inernational Conference on Structural Integrity》|2015年||共8页
会议地点
作者
Y. Appalanaidu; Anindya Roy; Sayan Gupta;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类结构理论、计算;
关键词
Creep damage; stochastic finite element method; axisymmetric finite elements; optimal linear expansion; material inhomogeneities.;

机译：蠕变损坏;随机有限元法;轴对称有限元;最优线性膨胀;材料不均匀性。;

相似文献

外文文献
中文文献
专利

1. 3-D stochastic finite elements for thermal creep analysis of piping structures with spatial material inhomogeneities [J] . Appalanaidu Y., Roy Anindya, Gupta Sayan Acta Mechanica . 2017,第9期

机译：三维随机有限元，用于带空间材料的管道结构热蠕变分析
2. Solution of randomly excited stochastic differential equations with stochastic operator using spectral stochastic finite element method (SSFEM) [J] . Hussein A., El-Tawil M., El-Tahan W, Structural Engineering and Mechanics . 2008,第2期

机译：利用谱随机有限元方法（SSFEM）用随机算子求解随机激发的随机微分方程
3. An extended stochastic pseudo-spectral Galerkin finite element method (XS-PS-GFEM) for elliptic equations with hybrid uncertainties [J] . Varghese Mathew Tittu, Rebbagondla Jayamanideep, Natarajan Sundararajan International Journal for Numerical Methods in Engineering . 2020,第19期

机译：具有杂交不确定性的椭圆方程的扩展随机伪光谱Galerkin有限元方法（XS-PS-GFEM）
4. Stochastic Creep Damage Estimation in Pipings with Spatial Non-Gaussian Uncertainties Using Spectral Stochastic Finite Element Method [C] . Y. Appalanaidu, Anindya Roy, Sayan Gupta Inernational Conference on Structural Integrity . 2015

机译：采用光谱随机有限元法的空间非高斯不确定性的随机蠕变损伤估计
5. Stochastic J-integral and reliability of composite laminates based on a computational methodology combining experimental investigation, stochastic finite element analysis and maximum entropy method. [D] . Pondugala, Lakshmi Vara Prasad. 2000

机译：基于实验研究，随机有限元分析和最大熵方法相结合的计算方法，对复合材料层板的随机J积分和可靠性进行了研究。
6. Model-free uncertainty estimation in stochastical optical fluctuation imaging (SOFI) leads to a doubled temporal resolution [O] . Wim Vandenberg, Sam Duwé, Marcel Leutenegger, 2016

机译：随机光学波动成像（SOFI）中的无模型不确定性估计可将时间分辨率提高一倍
7. Stochastic Creep Damage Estimation in Pipings with Spatial Non-gaussian Uncertainties Using Spectral Stochastic Finite Element Method [O] . Appalanaidu Y., Roy Anindya, Gupta Sayan 2014

机译：空间非高斯不确定性的管道随机蠕变损伤估计的频谱随机有限元方法

Stochastic Creep Damage Estimation in Pipings with Spatial Non-Gaussian Uncertainties Using Spectral Stochastic Finite Element Method

摘要

著录项

相似文献

相关主题

期刊订阅