An improved sub-step time-marching procedure for linear and nonlinear dynamics with high-order accuracy and high-efficient energy conservation

Weibin Wen; Shanyao Deng; Ningbo Wang; Shengyu Duan; Daining Fang

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An improved sub-step time-marching procedure for linear and nonlinear dynamics with high-order accuracy and high-efficient energy conservation

机译：具有高级准确度和高效节能的线性和非线性动力学的改进的子步骤时行进程序

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摘要

In this paper, an improved sub-step time-marching procedure is proposed for structural dynamics. The proposed procedure has two free parameters which can be adopted to control basic algorithmic properties including computation accuracy, algorithmic damping, period elongation, and overshooting behavior. The influences of the algorithmic parameters on these basic properties of the method are studied, and the optimal parameter value is thus obtained. Theoretical analysis and numerical simulations demonstrate that new procedure is desirable for linear and nonlinear dynamics due to its higher-order accuracy, desirable numerical dissipation, and high-efficient energy conservation.

机译：本文提出了一种改进的子步骤时间行进程序，用于结构动态。所提出的程序具有两个可用参数，可以采用来控制基本算法属性，包括计算精度，算法阻尼，周期伸长率和过冲行为。研究了算法参数对方法的这些基本属性的影响，由此获得最佳参数值。理论分析和数值模拟表明，由于其高阶精度，所需的数值耗散和高效节能，所需的线性和非线性动力学是期望的新程序。

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来源
《Applied Mathematical Modelling》 |2021年第2期|78-100|共23页
作者
Weibin Wen; Shanyao Deng; Ningbo Wang; Shengyu Duan; Daining Fang;
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作者单位

School of Civil Engineering Central South University Changsha 410083 PR China;

School of Civil Engineering Central South University Changsha 410083 PR China;

School of Civil Engineering Central South University Changsha 410083 PR China;

Institute of Advanced Structure Technology Beijing Institute of Technology Beijing 100081 PR China;

Institute of Advanced Structure Technology Beijing Institute of Technology Beijing 100081 PR China College of Engineering Peking University Beijing 1008711 PR China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Structural dynamics; Energy conservation; Numerical dissipation; Implicit;

机译：结构动态;节能减排;数值耗散;隐含;

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An improved sub-step time-marching procedure for linear and nonlinear dynamics with high-order accuracy and high-efficient energy conservation

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