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Written for the practicing architect, Structural Design addresses the process on both a conceptual and a mathematical level. Most importantly, it helps architects work with structural consultants and understand all the necessary considerations when designing structural systems. Using a minimum of simple math, this book shows you how to make correct design calculations for structures made from steel, wood, concrete, and masonry. What?s more, this edition has been completely updated to reflect the latest design methods and codes, including LRFD for steel design. The book was also re-designed for…mehr
Written for the practicing architect, Structural Design addresses the process on both a conceptual and a mathematical level. Most importantly, it helps architects work with structural consultants and understand all the necessary considerations when designing structural systems. Using a minimum of simple math, this book shows you how to make correct design calculations for structures made from steel, wood, concrete, and masonry. What?s more, this edition has been completely updated to reflect the latest design methods and codes, including LRFD for steel design. The book was also re-designed for easy navigation. Essential principles, as well as structural solutions, are visually reinforced with hundreds of drawings, photographs, and other illustrations--making this book truly architect-friendly.
Rod Underwood, Professor of Architecture at Ball State University, Indiana, is a graduate of Purdue University in civil engineering and Ball State University in architecture. He has been a registered architect and registered Structural Engineer since 1971. His areas of expertise include structural design and architectural design. Michele Chiuini is Professor of Architecture at Ball State University, Indiana, where he teaches structural design and architectural design. He is a registered Structural Engineer in Italy, and he has practiced in Italy, England, and the United States.
Inhaltsangabe
Preface. IN THE BEGINNING: THE PREMISE. INTRODUCTION. UNDERSTANDING LOADS. 1. Loads. 2. LFRD (load factor resistance) Design. PART ONE: STEEL. 3. Materials and Properties. 4. Structural elements and systems. STEEL BENDING SYSTEMS. 5. Pre-engineered systems. 6. Steel beams. 7. Lateral stability in beams. 8. Supports. 9. Web yielding and crippling. 10. Built-up beams. STEEL AXIALLY LOADED SYSTEMS. 11. Columns. 12. Tension Members. STEEL COMBINED SYSTEMS. 13. Combined Axial Loading and Bending. 14. Trusses. STEEL CONNECTIONS. 15. Bolted connections. 16. Welded connections. PART TWO: WOOD. 17. Materials & Properties. 18. Wood structures in Architecture. WOOD BENDING SYSTEMS. 19. Roof and Floor systems. 20. Sheathing and diaphragm design. 21. Timber and laminated timber beams. WOOD AXIALLY LOADED MEMBERS. 22. Compression and tension members. WOOD COMBINED SYSTEMS. 23. Timber truss design. 24. Arches, vaults and domes. WOOD CONNECTIONS. 25. Connections. WOOD SPECIAL SYSTEMS. 26. Permanent wood foundations. PART THREE: REINFORCED CONCRETE (R/C). 27. Materials and properties. 28. Reinforced concrete in architecture. R/C BENDING MEMBERS. 29. Beams strength theory. 30. Beam design. 31. Shear in beams. 32. Slabs. 33 Deflection. 34. Footings. R/C AXIALLY LOADED MEMBERS. 35. Columns. 36. Walls. R/C CONNECTIONS. 37. Anchorage and embedment. R/C SPECIAL SYSTEMS. 38. Prestressed and precast concrete. PART FOUR: MASONRY. 39. Materials and properties. 40. Structural systems. MASONRY AXIALLY LOADED MEMBERS. 41. Empirical design of walls. 42. Working stress method. Appendix A. Appendix B. Appendix C. Conversions. Bibliography. References.