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
447 39 313KB
English Pages 996 Year 1973
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
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
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