安装在弹性支撑元件上的伸长悬臂板动态变形的变换模型

IF 0.5 Q3 MATHEMATICS
V. N. Paimushin, A. N. Nuriev, S. F. Chumakova
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引用次数: 0

摘要

摘要 提出了由沿长度方向的两个部分(紧固部分和自由部分)组成的伸长正交复合杆型板动态变形的变换模型。在自由截面上,材料的正交轴线与板所选笛卡尔坐标系的轴线不重合,而在紧固截面上,与弹性支撑元件的接触边界面(夹紧)各点的位移被认为是已知的。所建模型的基础是在自由截面上使用提炼的季莫申科剪切模型关系,该模型是在不考虑横向收缩的情况下,以几何非线性近似的方式为杆件编制的。对于固定在弹性支撑元件上的截面,在考虑横向收缩的情况下建立了一维剪切变形模型,通过满足与弹性支撑元件的运动耦合条件以及与板接口点的给定位移,将该模型转化为另一个模型。计算了板的自由部分和紧固部分的运动耦合条件。根据 Hamilton-Ostrogradsky 变分原理,推导出了相应的运动方程和边界条件,以及截面匹配的静态条件。所建模型的目的是在解决应用工程问题时模拟自然过程和结构,从而开发出创新的振荡仿生物推进器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Transformation Model of the Dynamic Deformation of an Elongated Cantilever Plate Mounted on an Elastic Support Element

Transformation Model of the Dynamic Deformation of an Elongated Cantilever Plate Mounted on an Elastic Support Element

Abstract

A transformation model of the dynamic deformation of an elongated orthotropic composite rod-type plate, consisting of two sections (fastened and free) along its length, is proposed. In the free section, the orthotropic axes of the material do not coincide with the axes of the Cartesian coordinate system chosen for the plate, and in the fastened section, the displacements of points of the contact’s boundary surface (clamping) with the elastic support element are considered to be known. The constructed model is based on the use for the free section of the relations of the refined Timoshenko shear model, compiled for rods in a geometrically nonlinear approximation without taking into account lateral contraction. For the section fastened on the elastic support element, a one-dimensional shear deformation model is built taking into account lateral contraction, which is transformed into another model by satisfying the conditions of kinematic coupling with the elastic support element with given displacements of the interface points with the plate. The conditions for the kinematic coupling of the free and fastened sections of the plate are formulated. Based on the Hamilton–Ostrogradsky variational principle, the corresponding equations of motion and boundary conditions, as well as the static conditions for the matching of sections, are derived. The constructed model is intended to simulate natural processes and structures when solving applied engineering problems aimed at developing innovative oscillatory biomimetic propulsors.

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来源期刊
Russian Mathematics
Russian Mathematics MATHEMATICS-
CiteScore
0.90
自引率
25.00%
发文量
0
期刊介绍: Russian Mathematics  is a peer reviewed periodical that encompasses the most significant research in both pure and applied mathematics.
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