Aircraft Structures for Engineering Students
6th Edition
Published on 4. November 2016
Book
Paperback/Softback
910 pages
978-0-08-100914-7 (ISBN)
Description
Aircraft Structures for Engineering Students, Sixth Edition, is the leading self-contained aircraft structures course text. It covers all fundamental subjects, including elasticity, structural analysis, airworthiness and aeroelasticity. Now in its sixth edition, the author has expanded the book's coverage of analysis and design of composite materials for use in aircraft, and has added new, real-world and design-based examples, along with new end-of-chapter problems of varying complexity.
More details
Series
Edition
6th edition
Language
English
Place of publication
Oxford
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
College/higher education
Undergraduate and postgraduate students of aerospace and aeronautical engineering. Also suitable for professional development and training courses
Dimensions
Height: 235 mm
Width: 191 mm
Weight
2100 gr
ISBN-13
978-0-08-100914-7 (9780081009147)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
T.H.G. Megson
Aircraft Structures for Engineering Students
Book
09/2021
7th Edition
Butterworth-Heinemann
€87.00
Shipment within 10-15 days
Additional editions
T. H. G. Megson
Aircraft Structures for Engineering Students
E-Book
10/2016
6th Edition
Butterworth-Heinemann
€61.99
Available for download
Previous edition
T.H.G. Megson
Aircraft Structures for Engineering Students
Book
02/2012
5th Edition
Butterworth-Heinemann
€110.17
Article exhausted; check for reprint
Person
T.H.G. Megson was a professor emeritus with the Department of Civil Engineering at Leeds University (UK). For Elsevier he wrote the market leading Butterworth Heinemann textbooks Aircraft Structures for Engineering Students and Introduction to Aircraft Structural Analysis (a briefer derivative of the aircraft structures book), as well as the text/ref hybrid Structural and Stress Analysis.
Content
Part A: Fundamentals of Structural Analysis
Section A1: Elasticity
1. Basic elasticity
2. Two-dimensional problems in elasticity
3. Torsion of solid sections
Section A2: Virtual work, energy, and matrix methods
4. Virtual work and energy methods
5. Energy methods
6. Matrix methods
Section A3: Thin plate theory
7. Bending of thin plates
Section A4: Structural instability
8. Columns
9. Thin plates
Section A5: Vibration of structures
10. Structural vibration
Part B: Analysis of Aircraft Structures
Section B1: Principles of stressed skin construction
11. Materials
12. Structural components of aircraft
Section B2: Airworthiness and airframe loads
13. Airworthiness
14. Airframe loads
15. Fatigue
Section B3: Bending, shear and torsion of thin-walled beams
16. Bending of open and closed, thin-walled beams
17. Shear of beams
18. Torsion of beams
19. Combined open and closed section beams
20. Structural idealization
Section B4: Stress analysis of aircraft components
21. Wing spars and box beams
22. Fuselages
23. Wings
24. Fuselage frames and wing ribs
25. Laminated composite structures
Section B5: Structural and loading discontinuities
26. Closed section beams
27. Open section beams
Section B6: Introduction to aeroelasticity
28. Wing problems
Section A1: Elasticity
1. Basic elasticity
2. Two-dimensional problems in elasticity
3. Torsion of solid sections
Section A2: Virtual work, energy, and matrix methods
4. Virtual work and energy methods
5. Energy methods
6. Matrix methods
Section A3: Thin plate theory
7. Bending of thin plates
Section A4: Structural instability
8. Columns
9. Thin plates
Section A5: Vibration of structures
10. Structural vibration
Part B: Analysis of Aircraft Structures
Section B1: Principles of stressed skin construction
11. Materials
12. Structural components of aircraft
Section B2: Airworthiness and airframe loads
13. Airworthiness
14. Airframe loads
15. Fatigue
Section B3: Bending, shear and torsion of thin-walled beams
16. Bending of open and closed, thin-walled beams
17. Shear of beams
18. Torsion of beams
19. Combined open and closed section beams
20. Structural idealization
Section B4: Stress analysis of aircraft components
21. Wing spars and box beams
22. Fuselages
23. Wings
24. Fuselage frames and wing ribs
25. Laminated composite structures
Section B5: Structural and loading discontinuities
26. Closed section beams
27. Open section beams
Section B6: Introduction to aeroelasticity
28. Wing problems