Mechanics of Materials(Problems and Solutions Manual)
內容大鋼
本教材針對材料力學64學時的教學內容,選取有針對性的習題並給出詳細解答,由淺到深、由易到難,全書共分為11章和附錄,具體內容包括:拉壓、扭轉、彎曲內力、彎曲應力、彎曲變形、簡單超靜定問題、應力狀態、組合變形、壓桿穩定,等等。材料力學課程是工程技術和科學研究的基礎,是多數工科專業的必修基礎課程,在高校國際化教學中佔有重要地位。材料力學課程的主要內容是發展應用於特定材料的非剛體的載荷與產生的變形之間關係的實用知識。本教材旨在為學生提供一個清晰易懂的解決問題的過程,同時學習如何應用材料力學的基本原理。
作者介紹
編者:Huang Lihua
Huang Lihua, born in 1967, is a professor working at the Faculty of Infrastructure Engineering,Dalian University of Technology, China. She teaches courses that include Theoretical Mechanics,Mechanics of Materials, Engineering Mechanics, and Advanced Mechanics of Materials. She has been awarded the Excellent Teacher Award from the Baogang Education Fund, the Excellent Teacher Award in Liaoning Province, and the Outstanding Teacher Award of Dalian University of Technology. She has presided over more than thirty provincial and university educational reform projects, and led the teams to win many provincial and university teaching achievement awards.She has published eight textbooks and more than sixty teaching and research papers.
目錄
1. Stress and Strain
1.1 Internal loadings
1.2 Average normal stress in an axially loaded bar
1.3 Average shear stress in connections
1.4 Normal strain and shear strain
2. Mechanical Properties of Materials
3. Axial load
3.1 Elastic deformation of an axially loaded member
3.2 Displacement calculation
3.3 Statically indeterminate axially loaded members
3.4 Strain energy in an axially loaded member
4. Torsion
4.1 Torsional stress
4.2 Torsional deformation
4.3 Statically indeterminate torque-loaded members
4.4 Strain energy in a torque-loaded member
5. Internal Loadings in Bending
5.1 Shear and moment functions
5.2 Shear and moment diagrams
6. Bending Stresses
6.1 Normal stress in bending
6.2 Shear stress in bending
6.3 Bending strength
6.4 Unsymmetric bending
6.5 Composite beams
6.6 Curved beams
6.7 Inelastic deformation and residual stress
7. Combined Loadings
7.1 Thin-walled vessels
7.2 Eccentric tension and compression
7.3 State of stress caused by combined loadings
8. Stress and Strain Transformation
8. l Plane-stress transformation
8.2 Absolute maximum shear stress
8.3 Material-property relationships
8.4 Theories of failures
9. Deflection of Beams
9.1 The elastic curve
9.2 Slope and displacement by integration
9.3 Method of superposition
9.4 Statically indeterminate beams
9.5 Stain energy of beams
10. Buckling of Columns
10.1 Critical loads of columns
10.2 Buckling of statically indeterminate structures
10.3 Design of columns
11. Energy Method
11.1 Strain energy and work
11.2 Displacement calculation by energy method
11.3 Energy method applied to statically indeterminate problems
11.4 Impact loadings
Appendix Geometric Properties of an Area
A.1 Centroid of an area
A.2 Moment of inertia and product of inertia for an area
A.3 Principal moment of inertia
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