Reinforced concrete beams, columns and frames : mechanics and design / Charles Casandjian ... [et al.].

Format:

Book

Author/Creator:

Casandjian, Charles.

Challamel, Noël, author.

Lanos, Christophe, author.

Hellesland, J., author.

Series:

ISTE

Civil engineering and geomechanics series

Language:

English

Subjects (All):

Reinforced concrete construction.

Buildings, Reinforced concrete.

Physical Description:

1 online resource (312 p.)

Edition:

1st ed.

Other Title:

Reinforced concrete beams, columns and frames. Section and slender member analysis.

Place of Publication:

Hoboken, N.J. : ISTE Ltd./John Wiley and Sons Inc., 2013.

Language Note:

English

Summary:

This book is focused on the theoretical and practical design of reinforced concrete beams, columns and frame structures. It is based on an analytical approach of designing normal reinforced concrete structural elements that are compatible with most international design rules, including for instance the European design rules - Eurocode 2 - for reinforced concrete structures. The book tries to distinguish between what belongs to the structural design philosophy of such structural elements (related to strength of materials arguments) and what belongs to the design rule aspects associated with

Contents:

Title Page; Contents; Preface; Chapter 1. Design at Serviceability Limit State (SLS); 1.1. Nomenclature; 1.1.1. Convention with the normal vector orientation; 1.1.2. Vectorial notation; 1.1.3. Part of the conserved reference section; 1.1.4. Frame; 1.1.5. Compression stress σc,sup in the most compressed fiber; 1.2. Bending behavior of reinforced concrete beams - qualitative analysis; 1.2.1. Framework of the study; 1.2.2. Classification of cross-sectional behavior; 1.2.3. Parameterization of the response curves by the stress σs1 of the most stressed tensile reinforcement

1.2.4. Comparison of σs1 of the tensile reinforcement for a given stress in the most compressed concrete fiber σc,sup1.2.5. Comparison of the bending moments; 1.3. Background on the concept of limit laws; 1.3.1. Limit law for material behavior; 1.3.2. Example of limit laws in physics, case of the transistor; 1.3.3. Design of reinforced concrete beams in bending at the stress Serviceability Limit State; 1.4. Limit laws for steel and concrete at Serviceability Limit State; 1.4.1. Concrete at the cross-sectional SLS; 1.4.2. Steel at the cross-sectional SLS; 1.4.3. Equivalent material coefficient

1.5. Pivots notion and equivalent stress diagram1.5.1. Frame and neutral axis; 1.5.2. Conservation of planeity of a cross-section; 1.5.3. Planeity conservation law in term of stress; 1.5.4. Introduction to pivot concepts; 1.5.5. Pivot rules; 1.6. Dimensionless coefficients; 1.6.1. Goal; 1.6.2. Total height of the cross-section; 1.6.3. Relative position of the neutral axis; 1.6.4. Shape filling coefficient; 1.6.5. Dimensionless formulation for the position of the center of pressure; 1.7. Equilibrium and resolution methodology; 1.7.1. Equilibrium equations

1.7.2. Discussion on the resolution of equations with respect to the number of unknowns1.7.3 Reduced moments; 1.7.4. Case of a rectangular section; 1.8. Case of pivot A for a rectangular section; 1.8.1. Studied section; 1.8.2. Shape filling coefficient; 1.8.3. Dimensionless coefficient related to the center of pressure; 1.8.4. Equations formulation; 1.8.5. Resolution; 1.9. Case of pivot B for a rectangular section; 1.9.1. Studied section; 1.9.2. Shape filling coefficient; 1.9.3. Dimensionless coefficient related to the center of pressure; 1.9.4. Equations formulation; 1.9.5. Resolution

1.9.6. Synthesis1.10. Examples - bending of reinforced concrete beams with rectangular cross-section; 1.10.1. A design problem at SLS - exercise; 1.10.2. Resolution in Pivot A - Mser = 225 kN.m; 1.10.3. Resolution in Pivot B - Mser = 405 kN.m; 1.10.4. Resolution in pivot AB; 1.10.5. Design of a reinforced concrete section, an optimization problem; 1.10.6. General design at Serviceability Limit State with tensile and compression steel reinforcements; 1.11. Reinforced concrete beams with T-cross-section; 1.11.1. Introduction; 1.11.2. Decomposition of the cross-section

1.11.3. Case of pivot A for a T-cross-section

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on metadata supplied by the publisher and other sources.

ISBN:

9781118639511

1118639510

9781118639467

1118639464

9781118639399

1118639391

9781299188488

1299188486

OCLC:

828299028