Reinforced Concrete: Mechanics And Design by James K. WightReinforced Concrete: Mechanics And Design by James K. Wight

Reinforced Concrete: Mechanics And Design

byJames K. Wight, James G Macgregor

Hardcover | April 13, 2015

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For courses in architecture and civil engineering.


Reinforced Concrete: Mechanics and Design uses the theory of reinforced concrete design to teach readers the basic scientific and artistic principles of civil engineering. The text takes a topic often introduced at the advanced level and makes it accessible to all audiences by building a foundation with core engineering concepts. The Seventh Edition is up-to-date with the latest Building Code for Structural Concrete, giving readers access to accurate information that can be applied outside of the classroom.

Readers are able to apply complicated engineering concepts to real world scenarios with in-text examples and practice problems in each chapter. With explanatory features throughout, the Seventh Edition makes the reinforced concrete design a theory all engineers can learn from.

James K. Wight received his B.S. and M.S. degrees in civil engineering from Michigan State University in 1969 and 1970, respectively, and his Ph.D. from the University of Illinois in 1973. He has been a professor of structural engineering in the Civil and Environmental Engineering Department at the University of Michigan since 1973. H...
Title:Reinforced Concrete: Mechanics And DesignFormat:HardcoverDimensions:1176 pages, 10.1 × 8.4 × 2.6 inPublished:April 13, 2015Publisher:Pearson EducationLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:013348596X

ISBN - 13:9780133485967

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Table of Contents

Chapter 1: Introduction

Chapter 2: The Design Process

Chapter 3: Materials

Chapter 4: Flexure: Behavior and Normal Strength of Beam Sections

Chapter 5: Flexural Design of Beam Sections

Chapter 6: Shear in Beams

Chapter 7: Torsion

Chapter 8: Development, Anchorage, and Splicing of Reinforcement

Chapter 9: Serviceability

Chapter 10: Continuous Beams and One-Way Slabs

Chapter 11: Columns: Combined Axial Load and Bending

Chapter 12: Slender Columns

Chapter 13: Two-Way Slabs: Behavior, Analysis, and Design

Chapter 14: Two Way Slabs: Elastic and Yield-Line Analyses

Chapter 15: Footings

Chapter 16: Shear Friction, Horizontal Shear Transfer, and Composite Concrete Beams

Chapter 17: Discontinuity Regions and Strut-and-Tie Models

Chapter 18: Walls and Shear Walls

Chapter 19: Design for Earthquake Resistance

Appendix A: Design Aids

Appendix B: Notation