Reinforced Concrete: Mechanics and Design
Based on the latest (1995) edition of the authoritative American Concrete Institute Building Code, this text explains the theory and practice of reinforced concrete design in a systematic and clear fashion - with an abundance of step-by-step worked examples, illustrations, and photographs. The focus is on preparing students to make the many judgement decisions required in reinforced concrete design, and reflects the author's extensive experience and expertise as both a teacher of reinforced concrete design and as a member of various code committees. This edition updates all content to reflect the 1995 American Concrete Institute Building code; provides new/revised/expanded coverage of core testing and durability shrinkage and creep, bases the maximum steel ratio and the value of the factor on Appendix B of ACI318-95, composite concrete beams, strut-and-tie models, and dapped ends and T-beam flanges. The discussion of STMs is expanded, and new examples in SI units are added.
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THE DESIGN PROCESS
BASIC CONCEPTS RECTANGULAR BEAMS
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ACI Code ACI Eq ACI Sec analysis assumed axial load beam shown bending bottom calculated capacity centroid Check coefficient column strip compression reinforcement compression steel compression zone compressive force compressive strength compressive stress Compute concrete strength cross section cutoff points dead load deflections depth development length distribution effective elastic equation Example exceeds exterior failure flange flexural floor footing frame ft-kips given by Eq Grade 60 inclined cracking interaction diagram interior column kips kips/ft layer less limit limit states design live load longitudinal maximum middle strip midspan minimum moments negative panel ratio rectangular beam reinforced concrete resistance result section is tension-controlled shear perimeter shear stresses shown in Fig shrinkage spacing span stiffness stirrups strain stress block stress-strain curve structure strut Table tensile strength tensile stresses tension reinforcement tension steel thickness torsion truss vertical yield strength
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Seismic Design of Reinforced and Precast Concrete Buildings
Robert E. Englekirk
Limited preview - 2003