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Reinforced Concrete Design,9780131187672
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Reinforced Concrete Design

by ;
Edition:
6th
ISBN13:

9780131187672

ISBN10:
0131187678
Format:
Hardcover
Pub. Date:
1/1/2007
Publisher(s):
Prentice Hall
List Price: $105.20
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Summary

Using a straight-forward, step-by-step, problem-solution formatwith an abundance of fully-worked sample problemsthis book provides an elementary, non-Calculus, practical approach to the design and analysis of reinforced concrete structural members. It translates a vast amount of information and data in an integrated source that reflects the latest standards and that provides a basic, workable understanding of the strength and behavior of reinforced concrete members and simple concrete structural systems. A valuable design guide and resource for practicing technicians and technologists, and engineers and architects preparing for state licensing examinations for professional registrations.

Table of Contents

Materials and Mechanics of Bending
1(21)
Concrete
2(1)
The ACI Building Code
2(1)
Cement and Water
2(1)
Aggregates
3(1)
Concrete in Compression
3(3)
Concrete in Tension
6(1)
Reinforcing Steel
6(4)
Beams: Mechanics of Bending Review
10(12)
References
18(1)
Problems
19(3)
Rectangular Reinforced Concrete Beams and Slabs: Tension Steel Only
22(51)
Introduction
23(1)
Analysis and Design Method
24(1)
Behavior Under Load
25(2)
Strength Design Method Assumptions
27(1)
Flexural Strength of Rectangular Beams
28(2)
Equivalent Stress Distribution
30(4)
Balanced, Brittle, and Ductile Failure Modes
34(2)
Ductility Requirements
36(3)
Strength Requirements
39(2)
Rectangular Beam Analysis for Moment (Tension Reinforcement Only)
41(6)
Summary of Procedure for Rectangular Beam Analysis for φMn (Tension Reinforcement Only)
47(1)
Slabs: Introduction
48(1)
One-Way Slabs: Analysis for Moment
49(4)
Rectangular Beam Design for Moment (Tension Reinforcement Only)
53(7)
Summary of Procedure for Rectangular Reinforced Concrete Beam Design for Moment (Tension Reinforcement Only)
60(2)
Design of One-Way Slabs for Moment (Tension Reinforcement Only)
62(3)
Summary of Procedure for Design of One-Way Slabs for Moment (to Satisfy ACI Minimum h)
65(1)
Slabs on Ground
65(8)
References
66(1)
Problems
67(6)
Reinforced Concrete Beams: T-Beams and Doubly Reinforced Beams
73(49)
T-Beams: Introduction
74(2)
T-Beam Analysis
76(7)
Analysis of Beams Having Irregular Cross Sections
83(2)
T-Beam Design (for Moment)
85(7)
Summary of Procedure for Analysis of T-Beams (for Moment)
92(2)
Summary of Procedure for Design of T-Beams (for Moment)
94(1)
Doubly Reinforced Beams: Introduction
95(1)
Doubly Reinforced Beam Analysis for Moment (Condition I)
96(5)
Doubly Reinforced Beam Analysis for Moment (Condition II)
101(5)
Summary of Procedure for Analysis of Doubly Reinforced Beams (for Moment)
106(2)
Doubly Reinforced Beam Design for Moment
108(3)
Summary of Procedure for Design of Doubly Reinforced Beams (for Moment)
111(2)
Additional Code Requirements for Doubly Reinforced Beams
113(9)
Problems
114(8)
Shear in Beams
122(27)
Introduction
122(3)
Shear Reinforcement Design Requirements
125(4)
Shear Analysis Procedure
129(2)
Stirrup Design Procedure
131(11)
Torsion: Introduction
142(1)
Design of Torsion Reinforcement
143(6)
Problems
144(5)
Development, Splices, and Simple-Span Bar Cutoffs
149(38)
Development Length: Introduction
150(1)
Development Length: Tension Bars
151(9)
Development Length: Compression Bars
160(1)
Development Length: Standard Hooks in Tension
160(5)
Development of Web Reinforcement
165(3)
Splices
168(1)
Tension Splices
168(1)
Compression Splices
169(1)
Simple-Span Bar Cutoffs and Bends
169(9)
Code Requirements for Development of Positive Moment Steel at Simple Supports
178(9)
Problems
181(6)
Continuous Construction Design Considerations
187(29)
Introduction
187(2)
Continuous-Span Bar Cutoffs
189(3)
Design of Continuous Floor Systems
192(24)
Problems
213(3)
Serviceability
216(19)
Introduction
216(1)
Deflections
217(1)
Calculation of Icr
218(5)
Immediate Deflection
223(1)
Long-Term Deflection
224(4)
Deflections for Continuous Spans
228(1)
Crack Control
229(6)
Problems
232(3)
Walls
235(46)
Introduction
235(3)
Lateral Forces on Retaining Walls
238(4)
Design of Reinforced Concrete Cantilever Retaining Walls
242(31)
Design Considerations for Bearing Walls
273(4)
Design Considerations for Basement Walls
277(4)
Problems
278(3)
Columns
281(41)
Introduction
282(1)
Strength of Reinforced Concrete Columns: Small Eccentricity
283(3)
Code Requirements Concerning Column Details
286(2)
Analysis of Short Columns: Small Eccentricity
288(2)
Design of Short Columns: Small Eccentricity
290(5)
Summary of Procedure for Analysis and Design of Short Columns with Small Eccentricities
295(1)
The Load-Moment Relationship
295(1)
Columns Subjected to Axial Load at Large Eccentricity
296(1)
Factor Considerations
297(1)
Analysis of Short Columns: Large Eccentricity
298(16)
The Slender Column
314(8)
References
318(1)
Problems
319(3)
Footings
322(44)
Introduction
322(2)
Wall Footings
324(10)
Wall Footings Under Light Loads
334(1)
Individual Reinforced Concrete Footings for Columns
335(4)
Square Reinforced Concrete Footings
339(7)
Rectangular Reinforced Concrete Footings
346(10)
Eccentrically Loaded Footings
356(1)
Combined Footings
357(4)
Cantilever or Strap Footings
361(5)
Problems
364(2)
Prestressed Concrete Fundamentals
366(30)
Introduction
367(1)
Design Approach and Basic Concepts
367(3)
Stress Patterns in Prestressed Concrete Beams
370(2)
Prestressed Concrete Materials
372(1)
Analysis of Rectangular Prestressed Concrete Beams
373(5)
Alternative Methods of Elastic Analysis: Internal Couple Method
378(3)
Alternative Methods of Elastic Analysis: Load Balancing Method
381(8)
Flexural Strength Analysis
389(3)
Notes on Prestressed Concrete Design
392(4)
References
392(1)
Problems
393(3)
Concrete Formwork
396(52)
Introduction
396(1)
Formwork Requirements
397(1)
Formwork Materials and Accessories
398(4)
Loads and Pressures on Forms
402(2)
The Design Approach
404(9)
Design of Formwork for Slabs
413(11)
Design of Formwork for Beams
424(7)
Wall Form Design
431(9)
Forms for Columns
440(8)
References
445(1)
Problems
445(3)
Detailing Reinforced Concrete Structures
448(19)
Introduction
449(1)
Placing Drawings
450(3)
Marking Systems and Bar Marks
453(2)
Schedules
455(1)
Fabricating Standards
455(6)
Bar Lists
461(1)
Extras
461(2)
Bar Supports and Bar Placement
463(1)
Computer Detailing
463(4)
References
466(1)
APPENDIX A TABLES AND DIAGRAMS
467(20)
APPENDIX B SUPPLEMENTARY AIDS AND GUIDELINES
487(6)
Accuracy for Computations for Reinforced Concrete
487(1)
Flow Diagrams
488(5)
APPENDIX C METRICATION
493(18)
The International System of Units (SI)
493(3)
SI Style and Usage
496(3)
Conversion Factors
499(12)
References
510(1)
APPENDIX D ANSWERS TO SELECTED PROBLEMS
511(4)
Index 515


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