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Mechanics of Materials

East China University of Technology via XuetangX

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1.Explain the basic concepts, fundamental theories, and computational methods of material mechanics from a knowledgeable and interesting perspective; 2. Apply mechanics of materials to analyze and calculate mechanical problems; 3. Combining with the practical teaching, reflect the basic application value of material mechanics in engineering education.

Syllabus

Chapter 1 Introduction

1.1 The task of material mechanics
1.2 Four basic deformations of rod members

Chapter 2 Axial Tension and Compression

2.1 The hanging ice like a sword and it's closely related to the axial force
2.2 Normal stress of cross section
2.3 Stress on oblique section
2.4 The Hooke's law
2.5 Mechanical properties of materials under tension and compression
2.6 Simple statically indeterminate problem of tension-compression rod
2.7 Temperature stress of "burning passion"

Chapter 3 Torsion

3.1 Torsional deformation and torque diagram
3.2 Torsion of thin-walled cylinder
3.3 The shear stress on the cross section of a circular shaft in torsion
3.4 The torsional deformation of solid circular shaft
3.5 Statically indeterminate of torsional deformation

Chapter 4 Bending Stress

4.1 Bending internal force
4.2 Bending moment of the dangerous balcony
4.3 The differential relationship between load, bending moment and shear force
4.4 Normal stress of bending
4.5 Shear stress of bending
4.6 Measures to improve the strength of beams

Chapter 5 Bending Deformation

5.1 Determination of the approximate differential equation of flexural curve
5.2 The magical beauty of bending deformation - superposition method
5.3 Simple statically indeterminate beam

Chapter 6 Stress State

6.1 Overview of the stress state of dialectical thinking
6.2 Analysis of plane stress state
6.3 Stress circle
6.4 Extreme stress and principal stress

Chapter 7 Strength Theory

7.1 Strength theory (I)
7.2 Strength theory (II)
7.3 Application of strength theory

Chapter 8 Combined Deformation

8.1 Oblique bend
8.2 Combined deformation of tensile (compressive) bending
8.3 Combined deformation of torsion bending
8.4 Strength calculation of connecting parts

Chapter 9 Special Topics

9.1 Stability of compression bar
9.2 Measures to improve the stability of compression bar
9.3 Impulsive load
9.4 Mechanical analysis of fun horizontal bar
9.5 Analysis of the force of springboard diving
9.6 Mechanical analysis of the strange single-plank bridge
9.7 Mechanical analysis of the mystery of cantilever beam reinforcement
9.8 Mechanical analysis of medical orthopedics

Chapter 10 Courseware Materials

Chapter 11 Final Exam

Taught by

Gao Jinhe, Chang Yi, Lu Qingrui, Li Peng, and Chai Xinjun

Tags

china

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