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Introductory technical guidance for civil and structural engineers and construction managers interested in design and construction of reinforced concrete hydraulic structures. Here is what is discussed: 1. DETAILS OF REINFORCEMENT 2. STRENGTH AND SERVICEABILITY REQUIREMENTS 3. REQUIRED STRENGTH.
Introductory guidance for civil and structural engineers interested in strength and serviceability requirements for reinforced concrete hydraulic structures. Here is what is discussed: 1. GENERAL 2. SERVICEABILITY LIMIT STATES 3. STRENGTH LIMIT STATES. 4. STRUCTURAL STABILITY ANALYSIS 5. CRITICAL AND NORMAL STRUCTURES 6. HYDRAULIC STRUCTURES SUPPORTING VEHICLES 7. LOADS.
Strength Design for Reinforced-Concrete Hydraulic Structures is written in sufficient detail to not only provide the designer with design procedures, but also to present examples of their application. A review of general detailing requirements, as well as strength and serviceability requirements, create a strong understanding of the strength-design method. Latter chapters feature examples that demonstrate load-factor application, the design of members subjected to combined flexural and axial loads, the design of members subjected to biaxial bending, and the design for shear strength, including provisions for both special straight and curved members.
A PRACTICAL GUIDE TO REINFORCED CONCRETE STRUCTURE ANALYSIS AND DESIGN Reinforced Concrete Structures explains the underlying principles of reinforced concrete design and covers the analysis, design, and detailing requirements in the 2008 American Concrete Institute (ACI) Building Code Requirements for Structural Concrete and Commentary and the 2009 International Code Council (ICC) International Building Code (IBC). This authoritative resource discusses reinforced concrete members and provides techniques for sizing the cross section, calculating the required amount of reinforcement, and detailing the reinforcement. Design procedures and flowcharts guide you through code requirements, and worked-out examples demonstrate the proper application of the design provisions. COVERAGE INCLUDES: Mechanics of reinforced concrete Material properties of concrete and reinforcing steel Considerations for analysis and design of reinforced concrete structures Requirements for strength and serviceability Principles of the strength design method Design and detailing requirements for beams, one-way slabs, two-way slabs, columns, walls, and foundations
Introductory technical guidance for civil and structural engineers and construction managers interested in concrete construction for buildings and infrastructure. Here is what is discussed: 1. CONSTRUCTION PLANNING 2. CONSTRUCTION METHODS 3. MATERIALS SELECTION 4. MIXTURE PROPORTIONING 5. ARCHITECTURAL CONCRETE 6. SHOTCRETE 7. VERIFICATION AND TESTING 8. CONCRETE PAVEMENTS 9. SLABS ON GRADE 10. SPECIAL CONCRETES 11. ALKALI/SILICATE AGGREGATE REACTIONS 12. EVALUATION OF CONCRETE STRUCTURES 13. CONCRETE STRUCTURES REPAIR 14. REINFORCED CONCRETE HYDRAULIC STRUCTURES.
This manual provides guidance on evaluating the condition of the concrete in a structure, relating the condition of the concrete to the underlying cause or causes of that condition, selecting an appropriate repair material and method for any deficiency found, and using the selected materials and methods to repair or rehabilitate the structure. Guidance is also included on maintenance of concrete and on preparation of concrete investigation reports for repair and rehabilitation projects. Considerations for certain specialized types of rehabilitation projects are also given.
This manual provides guidance for designing reinforced concrete hydraulic structures by the strength-design method. Plain concrete and prestressed concrete are not covered in this manual.
Introductory technical guidance for civil engineers, structural engineers and construction managers interested in engineering design and construction of concrete structures. Here is what is discussed: 1. CONSTRUCTION PLANNING 2. CONSTRUCTION METHODS 3. MATERIALS SELECTION 4. MIXTURE PROPORTIONING 5. ARCHITECTURAL CONCRETE 6. SHOTCRETE 7. VERIFICATION AND TESTING 8. CONCRETE PAVEMENTS 9. SLABS ON GRADE 10. SPECIAL CONCRETES 11. ALKALI/SILICATE AGGREGATE REACTIONS 12. EVALUATION OF CONCRETE STRUCTURES 13. CONCRETE STRUCTURES REPAIR 14. REINFORCED CONCRETE HYDRAULIC STRUCTURES
Based on the latest version of designing codes both for buildings and bridges (GB50010-2010 and JTG D62-2004), this book starts from steel and concrete materials, whose properties are very important to the mechanical behavior of concrete structural members. Step by step, analysis of reinforced and prestressed concrete members under basic loading types (tension, compression, flexure, shearing and torsion) and environmental actions are introduced. The characteristic of the book that distinguishes it from other textbooks on concrete structures is that more emphasis has been laid on the basic theories of reinforced concrete and the application of the basic theories in design of new structures and analysis of existing structures. Examples and problems in each chapter are carefully designed to cover every important knowledge point. As a basic course for undergraduates majoring in civil engineering, this course is different from either the previously learnt mechanics courses or the design courses to be learnt. Compared with mechanics courses, the basic theories of reinforced concrete structures cannot be solely derived by theoretical analysis. And compared with design courses, this course emphasizes the introduction of basic theories rather than simply being a translation of design specifications. The book will focus on both the theoretical derivations and the engineering practices.
The book is a conference proceeding on adoption and application of sustainable, Manageable, Appropriate, Rational and Transferable (SMART) Technologies in all sectors of development.