不确定条件下时域结构动力问题的区间有限元方法

Q2 Engineering

International Journal of Reliability and Safety Pub Date : 2018-06-25 DOI:10.1504/IJRS.2018.10013800

Naijia Xiao, F. Fedele, R. Muhanna

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引用次数: 0

摘要

对不确定条件下的结构动力响应进行了分析。荷载和材料的不确定性采用区间有限元法（IFEM）建模为区间。为了减少过高估计并提高求解的计算效率，我们不采用显式分步时间积分方案来求解动力学问题。相反，我们的方法通过使用离散傅立叶变换及其逆（DFT和IDFT）的隐式格式同时求解整个时域中的结构变量。通过修改控制方程的右侧来处理非平凡的初始条件。为了进一步减少高估，将一种新的分解策略应用于IFEM矩阵，同时求解主量和导出量。使用迭代封闭方法获得最终解，在我们的数值示例中，以最小的计算成本封闭精确解。

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Structural dynamic problems in time domain under uncertainty: an interval finite element approach

An analysis of the structural dynamic response under uncertainty is presented. Uncertainties in load and material are modelled as intervals exploiting the interval finite element method (IFEM). To reduce overestimation and increase the computational efficiency of the solution, we do not solve the dynamic problem by an explicit step-by-step time integration scheme. Instead, our approach solves for the structural variables in the whole time domain simultaneously by an implicit scheme using discrete Fourier transform and its inverse (DFT and IDFT). Non-trivial initial conditions are handled by modifying the right-hand side of the governing equation. To further reduce overestimation, a new decomposition strategy is applied to the IFEM matrices, and both primary and derived quantities are solved simultaneously. The final solution is obtained using an iterative enclosure method, and in our numerical examples the exact solution is enclosed at minimal computational cost.

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来源期刊

International Journal of Reliability and Safety Engineering-Safety, Risk, Reliability and Quality

CiteScore

1.00

自引率

0.00%

发文量