fib model code for concrete structures 2010

✍ Scribed by Fédération internationale du béton

Publisher: Ernst & Sohn a Wiley brand
Tongue: English
Leaves: 432
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

The International Federation for Structural Concrete (fib) is a pre-normative organization. Pre-normative implies pioneering work in codification. This work has now been realized with the fib Model Code 2010. The objectives of the fib Model Code 2010 are to serve as a basis for future codes for concrete structures, and present new developments with regard to concrete structures, structural materials and new ideas in order to achieve optimum behaviour. The fib Model Code 2010 is now the most comprehensive code on concrete structures, including their complete life cycle: conceptual design, dimensioning, construction, conservation and dismantlement. It is expected to become an important document for both national and international code committees, practitioners and researchers. The fib Model Code 2010 was produced during the last ten years through an exceptional effort by Joost Walraven (Convener Delft University of Technology, The Netherlands), Agnieszka Bigaj-van Vliet (Technical Secretary TNO Built Environment and Geosciences, The Netherlands) as well as experts out of 44 countries from five continents.

✦ Table of Contents

Content: Cover; Title Page; Contents; Contributors; Notations; Acronyms; Preface; 1 Scope; 1.1 Aim of the fib Model Code 2010; 1.2 Format; 1.3 Levels of approximation; 1.4 Structure of the fib Model Code 2010; 2 Terminology; 2.1 Definitions; 2.2 References; 3 Basic principles; 3.1 General; 3.1.1 Levels of performance; 3.1.2 Levels-of-approximation approach; 3.2 Performance-based design and assessment; 3.2.1 General approach; 3.2.2 Basis for verification; 3.3 Performance requirements for serviceability, structural safety, service life and reliability 3.3.1 Performance criteria for serviceability and structural safety; 3.3.1.1 Serviceability limit states; 3.3.1.2 Ultimate limit states; 3.3.1.3 Robustness; 3.3.2 Service life; 3.3.2.1 Specified service life and residual service life; 3.3.2.2 Verification of service life; 3.3.3 Reliability; 3.3.3.1 Target reliability level; 3.3.3.2 Component reliability and system reliability; 3.4 Performance requirements for sustainability; 3.4.1 General; 3.4.2 Performance requirements for environmental impact; 3.4.3 Performance requirements for impact on society; 3.5 Life cycle management; 3.5.1 General 3.5.2 Quality management; 3.5.2.1 General; 3.5.2.2 Project quality plan; 3.5.2.3 Life cycle file; 3.5.3 Quality management in design; 3.5.3.1 Objectives; 3.5.3.2 Design file; 3.5.3.3 Briefing phase; 3.5.3.4 Scouting phase; 3.5.3.5 Basis of design phase; 3.5.3.6 Project specification phase; 3.5.3.7 Final design phase; 3.5.3.8 Detailed design phase; 3.5.4 Quality management in construction; 3.5.4.1 Objectives; 3.5.4.2 As-built documentation (birth certificate document); 3.5.5 Quality management in conservation; 3.5.5.1 Objectives; 3.5.5.2 Service life file 3.5.6 Quality management in dismantlement; 3.5.6.1 Objectives; 3.5.6.2 Dismantlement document; 4 Principles of structural design; 4.1 Design situations; 4.2 Design strategies; 4.3 Design methods; 4.3.1 Limit state design principles; 4.3.2 Safety formats; 4.4 Probabilistic safety format; 4.4.1 General; 4.4.2 Basic rules for probabilistic approach; 4.5 Partial factor format; 4.5.1 General; 4.5.1.1 Basic variables; 4.5.1.2 Design condition; 4.5.1.3 Design values of basic variables; 4.5.1.4 Representative values of basic variables; 4.5.2 Basic rules for partial factor approach; 4.5.2.1 General 4.5.2.2 Ultimate limit states; 4.5.2.3 Fatigue verification; 4.5.2.4 Verification of structures subjected to impact and explosion; 4.5.2.5 Serviceability limit states; 4.6 Global resistance format; 4.6.1 General; 4.6.2 Basic rules for global resistance approach; 4.6.2.1 Representative variables; 4.6.2.2 Design condition; 4.7 Deemed-to-satisfy approach; 4.7.1 General; 4.7.2 Durability related exposure categories; 4.8 Design by avoidance; 5 Materials; 5.1 Concrete; 5.1.1 General and range of applicability; 5.1.2 Classification by strength; 5.1.3 Classification by density
Abstract:

The fib Model Code 2010 is now the most comprehensive code on concrete structures including their complete life cycle. It represents an important document for both national and international code Read more...

✦ Subjects

Промышленное и гражданское строительство;Строительные конструкции;Железобетонные и каменные конструкции;

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