A Unified Solution to Linear Beam Bending Problems

Proceedings of the 5th International Conference on Information and Education Innovations Pub Date : 2020-07-26 DOI:10.1145/3411681.3412950

Ulrich Zwiers

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Abstract

Determining the static deflection of slender members subjected to transverse loading is a classical problem in engineering mechanics. In undergraduate engineering courses, the treatment of the topic is commonly restricted to the linear Euler-Bernoulli beam model covered by almost all textbooks on solid mechanics or strength of materials. Students are typically requested to determine solutions to various support and loading conditions by applying either the direct integration method or the method of superposition. Even though this process of repeated application undoubtedly trains procedural skills, it appears to be a rather cumbersome way towards conceptual understanding. The contribution at hand proposes a unified solution based on Taylor series expansion in combination with Macaulay's method of handling discontinuities, which is shown to be easily applicable to both statically determined and statically over-determined beam problems. Mechanics lecturer involved in undergraduate engineering education may regard the presented solution framework as an effective way to provide a profound insight into linear beam theory.

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线性梁弯曲问题的统一解

确定细长构件在横向荷载作用下的静挠度是工程力学中的经典问题。在本科工程课程中，对该主题的处理通常局限于几乎所有固体力学或材料强度教科书所涵盖的线性欧拉-伯努利梁模型。通常要求学生用直接积分法或叠加法来确定各种支承和荷载条件下的解。尽管这种反复应用的过程无疑训练了程序技能，但它似乎是一种相当繁琐的理解概念的方式。本文提出了一种基于Taylor级数展开结合Macaulay处理不连续点方法的统一解，该解易于适用于静定梁问题和静定梁问题。参与本科工程教育的力学讲师可以将所提出的解框架视为深入了解线性梁理论的有效途径。

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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Proceedings of the 5th International Conference on Information and Education Innovations

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