一维波传播问题实例的半解析隐式直接时间积分格式

I. Orynyak, R. Mazuryk, V. Tsybulskyi
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引用次数: 1

摘要

在工程结构和物理现象的动力分析中,最常用的方法是有限元离散化和数学公式,然后应用直接时间积分方案。空间插值函数通常与静态分析相同。本文以一维波传播问题为例,提出了原始隐式格式,该隐式格式在空间插值函数中显式地包含时间区间值,作为考虑时刻的微分方程解析解的结果。前两个时刻的位移(解)近似为位置的多项式函数,并作为微分方程的特解来解释。该方案在色散和耗散方面具有很好的可预测性。关键的方案参数是时间间隔,时间间隔越小,得到的结果越正确。该方案的另外两个参数-空间间隔和多项式近似度对解的一般性质影响最小,但对波前附近的小区域有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Semi-analytical implicit direct time integration scheme on example of 1-D wave propagation problem
The most common approach in dynamic analysis of engineering structures and physical phenomenas consists in finite element discretization and mathematical formulation with subsequent application of direct time integration schemes. The space interpolation functions are usually the same as in static analysis. Here on example of 1-D wave propagation problem the original implicit scheme is proposed, which contains the time interval value explicitly in space interpolation function as results of analytical solution of differential equation for considered moment of time. The displacements (solution) at two previous moments of time are approximated as polynomial functions of position and accounted for as particular solutions of the differential equation. The scheme demonstrates the perfect predictable properties as to dispersion and dissipation. The crucial scheme parameter is the time interval – the lesser the interval the more correct results are obtained. Two other parameters of the scheme – space interval and the degree of polynomial approximation have minimal impact on the general behavior of solution and have influence on small zone near the front of the wave.
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