摘要:力学课程为工科专业学生接触较早的与工程实践相关的专业基础课,为了更 好的了解后续课程的学习和愈加简便地处理工程理论问题提供力学理论指点。为 了简化理解力学课程中的内容,熟练应用力学课程中的知识,探索出更好的力学 研究认识论。
本课题主要研究材料力学与弹性力学的异同点,材料力学与结构力学中快速 作出内力图以及材料力学与结构力学中解决同一问题不同方法的比较。本文从基本原理,计算分析等方法来更好的将力学课程内容进行比较和总结,以便加深对 力学课程中若干问题的剖析了解,更好地利用所学知识,联系生活实际,从而达 到学以致用的效果。
关键词:材料力学;弹性力学;结构力学
Abstract Mechanics course for engineering students to contact with the early engineering practice related to the basic courses, in order to better understand the follow-up courses and learn more practical problems to provide mechanical theory guidance. In order to simplify the understanding of the content of the mechanics course, proficiency in the application of mechanics in the course of knowledge to explore a better mechanics of epistemology.
In this paper, we mainly study the similarities and differences between material mechanics and elastic mechanics, the rapid internal force diagram in material mechanics and structural mechanics, and the comparison of different methods for solving the consent problem in material mechanics and structural mechanics. This paper summarizes and summarizes the contents of the mechanics course from the basic principles, calculation and analysis, so as to deepen the understanding and understanding of some problems in the mechanics course, and make better use of the knowledge applied to the real life. To achieve the effect of learning to use.
Key words: material mechanics; elastic mechanics; structural mechanics
目录
第一章 绪论 1
1.1 研究背景 1
1.2 研究意义 1
1.3 研究方法 1
1.4 研究内容 1
第二章 材料力学与弹性力学的异同点对比 2
2.1 两者之间的关系 2
2.2 研究对象 2
2.3 对杆件问题研究的对比 2
2.3.1 研究方法 2
2.3.2 举例分析 3
2.4 材料力学与弹性力学的研究方法对比 5
2.5 计算方法 5
2.6 基本假设 7
2.7 应力与应力符号的对比 7
2.7.1 应力符号 7
2.7.2 应变符号 8
第三章 材料力学与结构力学作内力图方法对比 9
3.1 材料力学绘制内力图 9
3.1.1 由外力直接绘制轴力图 9
3.1.2 由外力直接绘制扭矩图 10
3.1.3 由外力直接绘制剪力图和弯矩图 11
3.1.4 内力图的直接画法 14
3.1.5 结论 15