Newburyport, : Dover Publications, 2013

0-486-13243-9

1-62198-657-8

1 online resource (1577 p.)

Dover Books on Aeronautical Engineering

AshleyHolt

HalfmanRobert L

629.132/362

Aeroelasticity

Mechanical Engineering

Engineering & Applied Sciences

Aeronautics Engineering & Astronautics

Inglese

Description based upon print version of record.

Cover; Halftitle Page; Title Page; Copyright Page; Preface Page; Contents; Chapter 1. Introduction to Aeroelasticity; Chapter 2. Deformations of Airplane Structures Under Static Loads; Chapter 3. Deformations of Airplane Structures Under Dynamic Loads; Chapter 4. Approximate Methods of Computing Natural Mode Shapes and Frequencies; Chapter 5. Aerodynamic Tools: Two- and Three-Dimensional in Compressible Flow; Chapter 6. Aerodynamic Tools: Compressible Flow; Chapter 7. Wings and Bodies in Three-Dimensional Unsteady Flow; Chapter 8. Static Aeroelastic Phenomena; Chapter 9. Flutter

Chapter 10. Dynamic Response PhenomenaChapter 11. Aeroelastic Model Theory; Chapter 12. Model Design and Construction; Chapter 13. Testing Techniques; Appendices. Mathematical Tools; A Matrices; B Integration by weighting numbers; C Linear systems; References; Author Index; Subject Index

Designed as both a textbook for advanced engineering students and a reference book for practicing engineers, this highly regarded work deals not only with the practical aspects of aeroelasticity, but the aerodynamic and structural tools upon which these rest. Accordingly,

the book divides roughly into two halves: the first deals with the tools and the second with applications of the tools to aeroelastic phenomena.Topics include deformation of airplane structures under static and dynamic loads, approximate methods of computing natural mode shapes and frequencies, two-and three-dimensional inco