It will give an overview of the integrated design of buildings and explain the design of various elements such as slabs, beams, columns, walls, and footings. The book will compel users to think critically to enhance their intuitive design capabilities. Such members are often encountered in engineering practice, particularly in buildings. Using an original approach, the authors present the subject matter as clearly and effectively as possible. Each aspect is carefully illustrated and is the subject of a thorough theoretical development.
This is followed by a step-by-step procedure for both design and verification, along with many fully developped numerical applications. The strength and behavior of concrete elements are treated with the primary objective of explaining and justifying the rules and formulas of the ACI Building Code.
The treatment is incorporated into the chapters in such a way that the reader may study the concepts in a logical sequence in detail or merely accept a qualitative explanation and proceed directly to the design process using the ACI Code. Reinforced Concrete: Mechanics and Design uses the theory of reinforced concrete design to teach students 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. Tech Level. It presents the principles of the design of concrete elements and of complete structures, with practical illustrations of the theory. It explains the background to the Eurocode rules and goes beyond the core topics to cover the design of foundations, retaining walls, and water retaining structures.
The text includes more than sixty worked out design examples and more than six hundred diagrams, plans, and charts. It suitable for civil engineering courses and is a useful reference for practicing engineers. Score: 1. The revised edition continues to follow the provisions of IS , related current codes and the advanced developments that have taken place in the field of Reinforced Concrete Design.
Written for students and engineers, this book covers basic concepts of reinforced concrete design and detailing.? The text meets the twin objective of catering to the needs of the postgraduate students of Civil Engineering and the needs of the practising civil engineers as it focuses also on the practices followed by the industry.
In addition, it analyzes the procedures specified in many other BIS codes such as those on winds, earthquakes, and ductile detailing. What's New to This Edition Chapter 18 on Earthquake Forces and Structural Response of framed buildings has been completely revised and updated so as to conform to the latest I.
Chapters 19 and 21 which too deal with earthquake design have been revised. A Summary of elementary design of reinforced concrete members is added as Appendix.
Valuable tables and charts are presented to help students and practising designers to arrive at a speedy estimate of the steel requirements in slabs, beams, columns and footings of ordinary buildings. The easy to follow style makes it an ideal reference for students and professionals alike.
Schachat MD. Otto MD. Schiraldi PhD. Author : James K. 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. Enhanced search makes it easy to quickly find a key term or topic to study.
Students can also search videos, images, and their own notes. You and your students can download the mobile app to read wherever life takes you, even offline. Help students personalize their eText. Students can easily add their own notes, bookmarks, and highlights directly in their eText.
NEW - Listen and learn. Play the full audiobook to listen to your eText on the go or at home. Available with select titles. Engage learners with compelling media. Video Solutions offer step-by-step solution walkthroughs for analysis and design problems presented throughout the text. Flashcards help students review key terms and concepts. Students can use pre-built flashcards or create their own to study how they like. New to This Edition.
Updated t opics and examples keep technical information relevant and accurate The latest ACI Building Code Requirements are integrated throughout the text. Rearranged t echnical information in chapters 6, 7, and 17 provides a more fluid discussion from member behavior to development of design code requirements.
Chapter 2 includes a discussion of sustainability for design and construction of concrete structures, covering topics such as the use of concrete in building reduced CO2 emitting structures and their life-cycle costs, as well as improved thermal properties and building aesthetics. Chapter 5 fully covers flexural design procedures for the entire spectrum of beam sections and material strengths.
Structural analysis of both one-way Chapter 5 and two-way Chapter 13 continuous floor systems is discussed, including typical modeling assumptions and the interplay between analysis and design. Chapter 8 includes changes made to the development length equations for hooked and headed bars, including new requirements for confinement reinforcement to maintain reasonable development lengths for those bars.
Chapter 19 is updated to reflect the ACI Building Code seismic provisions for earthquake-revision design.
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