Architectural Structures Experts
Date: 21 April 2011, 05:51
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PART I: BACKGROUND 1 Historic Evolution 1-2 Walls 1-6 Post-and-beam 1-10 Arch, Vault, Dome 1-21 Suspended 1-24 Truss 1-26 Skyscraper 2 Loads 2-2 Introduction 2-2 Dead load 2-4 Live load 2-5 Seismic load 2-6 Wind load 2-8 Tributary load and load path 3 Basic Concepts 3-2 Synergy, Strength, Stiffness, Stability 3-3 Rupture length 3-4 Horizontal structures Slab, plate, deck (one & two-way) Beam, arch and cable Truss 3-9 Vertical/lateral structures Wall Cantilever Moment frame Braced frame PART II: MECHANICS 4 Statics 4-2 Force and moment 4-3 Static equilibrium 4-4 Supports 4-5 Reactions 4-10 Static determinacy 4-13 Vector analysis 4-15 Truss analysis 4-17 Funicular 4-21 Vector reactions 5 Strength Stiffness Stability 5-2 Force types 5-3 Force vs. stress 5-4 Allowable stress 5-5 Axial stress 5-6 Shear stress 5-8 Torsion 5-9 Principal stress 5-10 Strain 5-10 Hook’s law 5-11 Elastic Modulus 5-14 Thermal strain 5-14 Thermal stress 5-17 Stability 6 Bending 6-4 Bending and shear 6-8 Equilibrium method 6-10 Area method 6-13 Indeterminate beams 6-14 Flexure formula 6-15 Section modulus 6-16 Moment of inertia 6-18 Shear stress 6-22 Deflection 7 Buckling 7-3 Euler formula 7-3 Slenderness ratio 7-4 Combined stress 7-5 Kern 7-6 Arch and vault 7-7 Wood buckling 7-12 Steel buckling PART III: DESIGN METHODS 8 ASD, LRFD, Masonry and Concrete Design 8-2 ASD (Allowable Stress Design) 8-3 LRFD (Load Resistance Factor Design) 8-4 Masonry design (ASD) 8-10 Concrete strength design (LRFD) 9 Lateral Force Design 9-2 Design for wind 9-8 Seismic design 9-13 SD-graphs 9-15 Analysis steps 9-18 Vertical distribution 9-19 Horizontal diaphragms 9-22 Eccentricity 9-23 Hazard configurations 9-24 Stability issues 9-27 Seismic safety items 10 Conceptual Design 10-1 System selection 10-3 Global moment and shear 10-4 Radial pressure 10-5 Examples 10-7 Case studies 10-15 Portal method 10-17 Moment frame 10-19 Braced frame 10-21 Test models 10-23 Sample projects 10-29 Computer aided design PART IV: HORIZONTAL SYSTEMS 11 Bending Resistant 11-1 Bending concepts 11-3 Beam optimization 11-5 Joist, beam, girder 11-11 Vierendeel 11-17 Folded plate 11-22 Cylindrical shell 12 Axial Resistant 12-2 Truss Truss configurations Prismatic truss Folded truss 12-13 Space truss 12-22 Tree structures 13 Form-Resistant 13-2 Funicular concepts 13-4 Arch 13-10 Vault 13-17 Dome 13-23 Grid shell 13-29 HP shell 13-37 Freeform shell 14 Tensile Resistant 14-1 Tension members 14-2 Prestress 14-3 Stayed structures 14-8 Propped structures 14-10 Suspended structures 14-17 Cable truss 14-21 Anticlastic structures 14-42 Pneumatic structures PART V: VERTICAL SYSTEMS 15 General Background 15-2 Tall structures 15-3 Gravity load 15-4 Lateral load 15-7 Structure systems 15-11 Floor framing 15-12 Beam-column interaction 16 Shear Resistant 16-2 Classic walls 16-3 Seismic failures 16-4 Shear walls 16-6 Shear wall stability 16-7 Wood shear walls 16-10 Shear wall reinforcing 17 Bending Resistant 17-2 Cantilever 17-6 Moment frame 17-13 Framed tube 17-16 Bundled tube 18 Axial Resistant 18-2 Braced frame 18-8 Belt truss and outrigger 18-12 Braced tube 18-16 Eccentric braced frame 19 Suspended high-rise 19-2 Suspension rational 19-3 Design options 19-3 Limits 19-4 Case studies PART VI: MATERIAL 20 Wood 20-1 Material 20-5 Heavy timber 20-13 Grid structures Balloon framing Platform framing 20-29 Projects 21 Steel 21-1 Material 21-7 Heavy steel 21-29 Light gauge steel 21-33 Projects 22 Masonry 22-1 Material 22-7 Brick masonry 22-18 Concrete masonry 22-22 Stone masonry 22-23 Projects 23 Concrete 23-1 Material 23-4 Reinforced concrete 23-17 Prestressed concrete 23-20 Precast concrete 23-24 Tilt-up concrete 23-26 Projects 24 Fabric and cables 24-1 Material 24-2 Fabric 24-4 Cables 24-10 Projects Appendix A: Beam Formulas A-2 Beam formulas A-3 Bending coefficients Appendix B: Geometric Properties B-2 Centroid B-4 Moment of Inertia B-6 Parallel Axis Theorem B-7 Radius of Gyration B-8 Geometric properties Appendix C: Lateral Design Data C-2 Wind design data C-7 Seismic design data Appendix D: Material and Buckling Data D-2 Wood D-8 Steel Appendix E: Design Tables E-2 Span Ranges for Structure Elements E-3 Span Ranges for Structure Systems
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