Elastic stability of circular cylindrical shells /
The object of this book is to clarify the whole aspect of the basic problems concerning the elastic stability of of circular cylindrical shells under typical loading conditions. The book deals with buckling, postbuckling and initial postbuckling problems under one of the three fundamental loads, tha...
| Main Author: | |
|---|---|
| Corporate Author: | |
| Format: | eBook |
| Language: | English |
| Published: |
Amsterdam ; New York : New York, N.Y. :
North-Holland ; Sole distributors for the U.S.A. and Canada, Elsevier Science Pub. Co.,
1984.
|
| Series: | North-Holland series in applied mathematics and mechanics ;
v. 27. |
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Front Cover; Elastic Stability of Circular Cylindrical Shells; Copyright Page; INTRODUCTION; PREFACE; Table of Contents; CHAPTER 1. NONLINEAR THEORY OF CIRCULAR CYLINDRICAL SHELLS; 1.1 Introduction; 1.2 Donnell Theory; 1.3 Modified Flügge Theory; 1.4 Sanders Theory; CHAPTER 2. BUCKLING OF CIRCULAR CYLINDRICAL SHELLS UNDER FUNDAMENTAL LOADS; 2.1 Introduction; 2.2 Donnell Basic Equations; 2.3 Modified Flügge Basic Equations; 2.4 Sanders Basic Equations; 2.5 Buckling Under Torsion: Approximate Analysis; 2.6 Buckling Under Torsion: Accurate Analysis.
- 2.7 Buckling Under Pressure: Prebuckling Effect Neglected2.8 Buckling Under Pressure: Prebuckling Effect Considered; 2.9 Buckling Under Compression: Donnell Equations Neglecting Prebuckling Effect; 2.10 Buckling Under Compression: Flügge Equations Neglecting Prebuckling Effect; 2.11 Buckling Under Compression: Donnell Equations Considering Prebuckling Effect; 2.12 Buckling Under Compression: Flügge Equations Considering Prebuckling Effect; CHAPTER 3. POSTBUCKLING BEHAVIOR OF CIRCULAR CYLINDRICAL SHELLS UNDER FUNDAMENTAL LOADS; 3.1 Introduction; 3.2 Postbuckling Under Torsion: Experiment.
- 3.3 Postbuckling Under Torsion: Theory3.4 Postbuckling Under Pressure: Experiment; 3.5 Postbuckling Under Pressure: Theory; 3.6 Postbuckling Under Compression: Experiment; 3.7 Postbuckling Under Compression: Theory; CHAPTER 4. INITIAL POSTBUCKLING BEHAVIOR AND IMPERFECTION SENSITIVITY UNDER FUNDAMENTAL LOADS; 4.1 Introduction; 4.2 Imperfection Sensitivity Under Torsion: Direct Analysis; 4.3 Imperfection Sensitivity Under Torsion: Asymptotic Analysis; 4.4 Imperfection Sensitivity Under Pressure: Direct Analysis; 4.5 Imperfection Sensitivity Under Pressure: Asymptotic Analysis.
- 4.6 Imperfection Sensitivity Under Compression: Direct Analysis4.7 Imperfection Sensitivity Under Compression: Asymptotic Analysis; CHAPTER 5. BUCKLING AND POSTBUCKLING OF CIRCULAR CYLINDRICAL SHELLS UNDER COMBINED LOADS; 5.1 Introduction; 5.2 Buckling Under Pressure and Torsion; 5.3 Postbuckling Under Pressure and Torsion: Experiment; 5.4 Postbuckling Under Pressure and Torsion: Theory; 5.5 Buckling Under Pressure and Axial Load; 5.6 Postbuckling Under Pressure and Axial Compression: Experiment; 5.7 Postbuckling Under Pressure and Axial Compression: Theory.
- 5.8 Buckling Under Pressure and Transverse Edge Load: Experiment5.9 Buckling Under Pressure and Transverse Edge Load: Theory; CHAPTER 6. BUCKLING AND POSTBUCKLING OF PARTIALLY LIQUIDFILLED CIRCULAR CYLINDRICAL SHELLS UNDER FUNDAMENTAL LOADS; 6.1 Introduction; 6.2 Buckl ing of Partially Liquid-Filled Cylinders Under Torsion; 6.3 Postbuckling of Partially Liquid-Filled Cylinders Under Torsion; 6.4 Buckling of Partially Liquid-Filled Cylinders Under Pressure; 6.5 Postbuckling of Partially Liquid-Filled Cylinders Under Pressure; 6.6 Buckling of Partially Liquid-Filled Cylinders Under Compression.