Kinematic support modeling in Sage

Discrete and Continuous Models and Applied Computational Science Pub Date : 2020-12-15 DOI:10.22363/2658-4670-2020-28-2-141-153

O. K. Kroytor, M. Malykh, S. P. Karnilovich

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Abstract

The article discusses the kinematic support, which allows reducing the horizontal dynamic effects on the building during earthquakes. The model of a seismic isolation support is considered from the point of view of classical mechanics, that is, we assume that the support is absolutely solid, oscillating in a vertical plane above a fixed horizontal solid plate. This approach allows a more adequate description of the interaction of the support with the soil and the base plate of the building. The paper describes the procedure for reducing the complete system of equations of motion of a massive rigid body on a fixed horizontal perfectly smooth plane to a form suitable for applying the finite difference method and its implementation in the Sage computer algebra system. The numerical calculations by the Euler method for grids with different number of elements are carried out and a mathematical model of the support as a perfectly rigid body in the Sage computer algebra system is implemented. The article presents the intermediate results of numerical experiments performed in Sage and gives a brief analysis (description) of the results.

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Sage中的运动学支持建模

本文讨论了运动支撑，它可以减少地震时对建筑物的水平动力影响。从经典力学的角度考虑隔震支座的模型，即假定支座为绝对固体，在固定水平实心板上方的垂直平面上振荡。这种方法可以更充分地描述支撑与土壤和建筑底板的相互作用。本文叙述了将质量刚体在固定水平完全光滑平面上的完整运动方程组化简为适于应用有限差分法的形式的过程及其在Sage计算机代数系统中的实现。采用欧拉法对不同单元数的网格进行了数值计算，并在Sage计算机代数系统中建立了支座作为完美刚体的数学模型。本文介绍了在Sage中进行的数值实验的中间结果，并对结果作了简要的分析(描述)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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