Table Of ContentIntroduction to Aircraft
Structural Analysis
Second Edition
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Introduction to Aircraft
Structural Analysis
Second Edition
T. H. G. Megson
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Contents
Preface..................................................................................................................................................xi
PART A FUNDAMENTALS OF STRUCTURAL ANALYSIS
Section A1 Elasticity...........................................................................3
CHAPTER 1 Basic elasticity...............................................................................................5
1.1 Stress...........................................................................................................................5
1.2 Notation for forces and stresses.................................................................................7
1.3 Equations of equilibrium............................................................................................9
1.4 Plane stress...............................................................................................................11
1.5 Boundary conditions.................................................................................................11
1.6 Determination of stresses on inclined planes..........................................................12
1.7 Principal stresses......................................................................................................15
1.8 Mohr’s circle of stress.............................................................................................17
1.9 Strain.........................................................................................................................22
1.10 Compatibility equations...........................................................................................25
1.11 Plane strain...............................................................................................................26
1.12 Determination of strains on inclined planes............................................................27
1.13 Principal strains........................................................................................................29
1.14 Mohr’s circle of strain.............................................................................................30
1.15 Stress–strain relationships........................................................................................30
1.16 Experimental measurement of surface strains.........................................................37
References.................................................................................................................43
Problems...................................................................................................................43
CHAPTER 2 Two-dimensional problems in elasticity.........................................................47
2.1 Two-dimensional problems......................................................................................47
2.2 Stress functions.........................................................................................................49
2.3 Inverse and semi-inverse methods...........................................................................50
2.4 St. Venant’s principle...............................................................................................56
2.5 Displacements...........................................................................................................57
2.6 Bending of an end-loaded cantilever.......................................................................58
Reference..................................................................................................................63
Problems...................................................................................................................63
CHAPTER 3 Torsion of solid sections...............................................................................69
3.1 Prandtl stress function solution................................................................................69
3.2 St. Venant warping function solution......................................................................81
v
vi Contents
3.3 The membrane analogy............................................................................................82
3.4 Torsion of a narrow rectangular strip......................................................................84
References.................................................................................................................86
Problems...................................................................................................................87
Section A2 Virtual work, energy, and matrix methods .........................89
CHAPTER 4 Virtual work and energy methods..................................................................91
4.1 Work.........................................................................................................................91
4.2 Principle of virtual work..........................................................................................92
4.3 Applications of the principle of virtual work.......................................................106
Reference................................................................................................................117
Problems.................................................................................................................118
CHAPTER 5 Energy methods..........................................................................................123
5.1 Strain energy and complementary energy.............................................................123
5.2 Principle of the stationary value of the total complementary
energy.....................................................................................................................125
5.3 Application to deflection problems.......................................................................126
5.4 Application to the solution of statically indeterminate systems...........................135
5.5 Unit load method....................................................................................................152
5.6 Flexibility method..................................................................................................155
5.7 Total potential energy............................................................................................160
5.8 Principle of the stationary value of the total potential energy.............................161
5.9 Principle of superposition......................................................................................164
5.10 Reciprocal theorem................................................................................................164
5.11 Temperature effects................................................................................................168
References...............................................................................................................171
Problems.................................................................................................................171
CHAPTER 6 Matrix methods...........................................................................................183
6.1 Notation..................................................................................................................184
6.2 Stiffness matrix for an elastic spring.....................................................................185
6.3 Stiffness matrix for two elastic springs in line.....................................................186
6.4 Matrix analysis of pin-jointed frameworks...........................................................189
6.5 Application to statically indeterminate frameworks.............................................196
6.6 Matrix analysis of space frames............................................................................196
6.7 Stiffness matrix for a uniform beam.....................................................................198
6.8 Finite element method for continuum structures..................................................205
References...............................................................................................................223
Further reading.......................................................................................................223
Problems.................................................................................................................223
Contents vii
Section A3 Thin plate theory............................................................231
CHAPTER 7 Bending of thin plates.................................................................................233
7.1 Pure bending of thin plates....................................................................................233
7.2 Plates subjected to bending and twisting..............................................................236
7.3 Plates subjected to a distributed transverse load..................................................240
7.4 Combined bending and in-plane loading of a thin rectangular plate...................250
7.5 Bending of thin plates having a small initial curvature.......................................254
7.6 Energy method for the bending of thin plates......................................................255
Further reading.......................................................................................................263
Problems.................................................................................................................263
Section A4 Structural instability.......................................................267
CHAPTER 8 Columns.....................................................................................................269
8.1 Euler buckling of columns.....................................................................................269
8.2 Inelastic buckling...................................................................................................275
8.3 Effect of initial imperfections................................................................................279
8.4 Stability of beams under transverse and axial loads............................................282
8.5 Energy method for the calculation of buckling loads in columns.......................286
8.6 Flexural–torsional buckling of thin-walled columns............................................289
References...............................................................................................................301
Problems.................................................................................................................302
CHAPTER 9 Thin plates.................................................................................................311
9.1 Buckling of thin plates...........................................................................................311
9.2 Inelastic buckling of plates....................................................................................314
9.3 Experimental determination of the critical load for a flat plate..........................316
9.4 Local instability......................................................................................................316
9.5 Instability of stiffened panels................................................................................317
9.6 Failure stress in plates and stiffened panels..........................................................319
9.7 Tension field beams...............................................................................................322
References...............................................................................................................338
Problems.................................................................................................................338
PART B ANALYSIS OF AIRCRAFT STRUCTURES
Section B1 Principles of stressed skin
construction......................................................................................345
CHAPTER 10 Materials...................................................................................................347
10.1 Aluminum alloys....................................................................................................347
viii Contents
10.2 Steel........................................................................................................................349
10.3 Titanium..................................................................................................................350
10.4 Plastics....................................................................................................................351
10.5 Glass.......................................................................................................................351
10.6 Composite materials...............................................................................................351
10.7 Properties of materials...........................................................................................353
Problems.................................................................................................................368
CHAPTER 11 Structural components of aircraft................................................................371
11.1 Loads on structural components............................................................................371
11.2 Function of structural components........................................................................373
11.3 Fabrication of structural components....................................................................378
11.4 Connections............................................................................................................383
Reference................................................................................................................389
Problems.................................................................................................................389
Section B2 Airworthiness and airframe loads....................................393
CHAPTER 12 Airworthiness.............................................................................................395
12.1 Factors of the safety-flight envelope.....................................................................395
12.2 Load factor determination......................................................................................397
Reference................................................................................................................400
Problems.................................................................................................................400
CHAPTER 13 Airframe loads............................................................................................401
13.1 Aircraft inertia loads..............................................................................................401
13.2 Symmetric maneuver loads....................................................................................407
13.3 Normal accelerations associated with various types
of maneuver............................................................................................................412
13.4 Gust loads...............................................................................................................416
References...............................................................................................................424
Problems.................................................................................................................424
CHAPTER 14 Fatigue.......................................................................................................431
14.1 Safe life and fail-safe structures............................................................................431
14.2 Designing against fatigue.......................................................................................432
14.3 Fatigue strength of components.............................................................................433
14.4 Prediction of aircraft fatigue life...........................................................................439
14.5 Crack propagation..................................................................................................445
References...............................................................................................................452
Further reading.......................................................................................................452
Problems.................................................................................................................452
Description:Based on the authors best-selling text, Aircraft Structures for Engineering Students, this brief book covers the basics of structural analysis as applied to aircraft structures Coverage of elasticity, energy methods and virtual work set the stage for discussions of airworthiness/airframe loads and s
