Analysis and design of flight vehicle structures
9780961523404, 0961523409
Analysis and Design of Flight Vehicle Structures by E.F. Bruhn is one of the most useful Aerospace Industry and Universi
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English
Pages 996
Year 1973
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Table of contents :
Table of Contents
Part A
Chapter A1 : The Work of the Aerospace Structures Engineer
Chapter A2 : Equilibrium of Force Systems. Truss Structures. Externally Braced Wings. Landing Gear
Chapter A3 : Properties of Sections - Centroids, Moments of Inertia, etc.
Chapter A4 : General Loads on Aircraft
Chapter A5 : Beams - Shear and Moments. Beam - Column Moments
Chapter A6 : Torsion - Stresses and Deflections
Chapter A7 : Deflections of Structures. Castigliano's Theorem. Virtual Work. Matrix Methods
Chapter A8 : Indeterminate Structures. Theorem of Least Work. Virtual Work. Matrix Methods
Chapter A9 : Bending Moments in Frames and Rings by Elastic Center Method
Chapter A10 : Column Analogy Method
Chapter A11 : Continuous Structures - Moment Distribution Method
Chapter A12 : Slope Deflection Method
Chapter A13 : Bending Stresses
Chapter A14 : Bending Shear Stresses - Solid and Open Sections Shear Center
Chapter A15 : Shear Flow in Closed Thin-Walled Sections
Chapter A16 : Membrane Stresses in Pressure Vessels
Chapter A17 : Bending of Plates
Chapter A18 : Theory of the Instability of Columns and Thin Sheets
Chapter A19 : Introduction to Wing Stress Analysis by Modified Beam Theory
Chapter A20 : Introduction to Fuselage Stress Analysis by Modified Beam Theory
Chapter A21 : Loads and Stresses on Ribs and Frames
Chapter A22 : Analysis of Special Wing Problems. Cutouts. Shear Lag. Swept Wing
Chapter A23 : Analysis by the "Method of Displacements"
Chapter A24 : The 3-Dimensional Equations of Thermoelasticity
Chapter A25 : The 2-Dimensional Equations of Elasticity and Thermoelasticity
Chapter A26 : Selected Problems in Elasticity and Thermoelasticity
Part B
Chapter B1 : Basic Principles and Definitions
Chapter B2 : Mechanical and Physical Properties of Metallic Materials for Flight Vehicle Structures
Part C
Chapter C1 : Combined Stresses. Theory of Yield and Ultimate Failure
Chapter C2 : Strength of Columns with Stable Cross-Sections
Chapter C3 : Yield and Ultimate Strength in Bending
Chapter C4 : Strength and Design of Round, Streamline, Oval and Square Tubing in Tension, Compression, Bending, Torsion and Combined Loadings
Chapter C5 : Buckling Strength of Flat Sheet in Compression, Shear, Bending and Under Combined Stress Systems
Chapter C6 : Local Buckling Stress for Composite Shapes
Chapter C7 : Crippling Strength of Composite Shapes and Sheet-Stiffener Panels in Compression. Column Strength
Chapter C8 : Buckling Strength of Monocoque Cylinders
Chapter C9 : Buckling Strength of Curved Sheet Panels and Spherical Plates. Ultimate Strength of Stiffened Curved Sheet Structures
Chapter C10 : Design of Metal Beams. Web Shear Resistant (Non-Buckling) Type. Part 1. Flat Sheet Web with Vertical Stiffeners. Part 2. Other Types of Non-Buckling Webs
Chapter C11 : Diagonal Semi-Tension Field Design. Part 1. Beams with Flat Webs. Part 2. Curved Web Systems
Chapter C12 : Sandwich Construction and Design
Chapter C13 : Fatigue
Part D
Chapter D1 : Fittings and Connections. Bolted and Riveted
Chapter D2 : Welded Connections
Chapter D3 : Some Important Details in Structural Design
Appendices
Appendix A
Bruhn makes reference to a number of NACA and NASA documents, which are available below.
NACA documents
NASA documents