In the Eurocode series of European standards (EN) related to

construction Construction are processes involved in delivering buildings, infrastructure, industrial facilities, and associated activities through to the end of their life. It typically starts with planning, financing, and design that continues until the a ...

, '' Eurocode 2: Design of concrete structures'' (abbreviated EN 1992 or, informally, EC 2) specifies technical rules for the design of

concrete Concrete is a composite material composed of aggregate bound together with a fluid cement that cures to a solid over time. It is the second-most-used substance (after water), the most–widely used building material, and the most-manufactur ...

reinforced concrete Reinforced concrete, also called ferroconcrete or ferro-concrete, is a composite material in which concrete's relatively low tensile strength and ductility are compensated for by the inclusion of reinforcement having higher tensile strength or ...

and

prestressed concrete Prestressed concrete is a form of concrete used in construction. It is substantially prestressed (Compression (physics), compressed) during production, in a manner that strengthens it against tensile forces which will exist when in service. Post-t ...

structures, using the

limit state design Limit State Design (LSD), also known as Load And Resistance Factor Design (LRFD), refers to a design method used in structural engineering. A limit state is a condition of a structure beyond which it no longer fulfills the relevant design criteri ...

philosophy. It was approved by the

European Committee for Standardization The European Committee for Standardization (CEN, ) is a public standards organization whose mission is to foster the economy of the European Single Market and the wider European continent in global trading, the welfare of European citizens an ...

(CEN) on 16 April 2004 to enable designers across Europe to practice in any country that adopts the code. Concrete is a very strong and economical material that performs exceedingly well under

compression Compression may refer to: Physical science *Compression (physics), size reduction due to forces *Compression member, a structural element such as a column *Compressibility, susceptibility to compression * Gas compression *Compression ratio, of a ...

. Its weakness lies in its capability to carry tension forces and thus has its limitations.

Steel Steel is an alloy of iron and carbon that demonstrates improved mechanical properties compared to the pure form of iron. Due to steel's high Young's modulus, elastic modulus, Yield (engineering), yield strength, Fracture, fracture strength a ...

on the other hand is slightly different; it is similarly strong in both compression and tension. Combining these two materials means

engineer Engineers, as practitioners of engineering, are professionals who Invention, invent, design, build, maintain and test machines, complex systems, structures, gadgets and materials. They aim to fulfill functional objectives and requirements while ...

s would be able to work with a composite material that is capable of carrying both tension and compression forces. Eurocode 2 is intended to be used in conjunction with: * EN 1990: Eurocode - Basis of structural design; * EN 1991: Eurocode 1 - Actions on structures; *hENs, ETAGs and ETAs: Construction products relevant for concrete structures; * ENV 13670: Execution of concrete structures; * EN 1997: Eurocode 7 - Geotechnical design; * EN 1998: Eurocode 8 - Design of structures for earthquake resistance, when concrete structures are built in seismic regions. Eurocode 2 is subdivided into the following parts:

Part 1-1: General rules, and rules for buildings

EN 1992-1-1 deals with the rules and concepts required for designing concrete, reinforced concrete and prestressed concrete structures. There are three main stages are involved in the design of elements in these structures: * Pre-design: Before any other designing is undertaken, the limit states of durability and fire design are considered in order to ascertain the required cover to the reinforcement, the minimum size of members and the appropriate concrete strength. * Ultimate limit state: Accurate section sizes are determined for corresponding concrete properties (usually compressive strength). The size of the reinforced concrete element and the quantity of reinforcement to resist bending, shear and torsional forces are determined. * Serviceability limit state. In this phase of the work, checks are made to ensure the serviceability criteria (i.e. that the building is comfortable to use) are met.

Pre-design

Pre-design stage involves selecting initial section sizes (e.g. reinforcement diameter), from which the minimum required cover depth could be selected to attain the required fire resistance. Although these initial estimates are likely to change throughout the design, giving considerable amount of thought at this stage is likely to save a lot of time later on.

Ultimate limit state

Ultimate limit states are often more critical for concrete structures. Consequently, when design is undertaken, the ultimate limit state is designed for and then if necessary serviceability is checked for. However, element sizes ascertained in the pre-design stage usually ensure serviceability criteria are met.

Serviceability limit state

Serviceability requirements to check for deflection and crack widths are generally satisfied by observing the following details. * Checking and keeping within permitted span/effective depth ratios * Providing not less than the minimum permitted percentage of reinforcement. * Limiting the spacing of tension reinforcement. * Using “deemed to satisfy” empirical methods. If actual deflections are required, then the structure must be analysed for the serviceability limit state, using design service loads. The deflections obtained will generally be short term values and will be multiplied by a suitable factor to allow for creep effects and to give realistic long term values.

* General * Basis of design * Materials (

and

steel Steel is an alloy of iron and carbon that demonstrates improved mechanical properties compared to the pure form of iron. Due to steel's high Young's modulus, elastic modulus, Yield (engineering), yield strength, Fracture, fracture strength a ...

) including **

Concrete Concrete is a composite material composed of aggregate bound together with a fluid cement that cures to a solid over time. It is the second-most-used substance (after water), the most–widely used building material, and the most-manufactur ...

** Reinforcing steel ** Prestressing steel * Durability and cover to reinforcement * Structural analysis * Ultimate limit states * Serviceability limit states * Detailing

reinforcement In Behaviorism, behavioral psychology, reinforcement refers to consequences that increase the likelihood of an organism's future behavior, typically in the presence of a particular ''Antecedent (behavioral psychology), antecedent stimulus''. Fo ...

and prestressing tendons * Detailing members, and particular rules * Precast elements - additional rules * Lightweight aggregated concrete structures * Plain and lightly reinforced concrete structures

Part 1-2: Structural fire design

EN 1992-1-2 deals with the design of concrete structures for the accidental situation of fire exposure and is intended to be used in conjunction with EN 1992-1-1 and EN 1991-1-2. This part 1-2 only identifies differences from, or supplements to, normal temperature design. Part 1-2 of EN 1992 deals only with passive methods of fire protection. Active methods are not covered.

Part 1-3: Precast Concrete Elements and Structures

EN 1992-1-3 gives a general basis for the design and detailing of concrete structures in buildings made partly or entirely of precast elements.

Part 1-4: Lightweight aggregate concrete with closed structure

EN 1992-1-4 gives a general basis for the design of buildings and civil engineering works in reinforced and prestressed concrete made with lightweight aggregate concrete with closed structure.

Part 1-5: Structures with unbonded and external prestressing tendons

EN 1992-1-5 gives a general basis for the design of reinforced concrete components provided with unbonded tendons placed within or outside the concrete. In addition, it provides design rules which are mainly applicable to buildings but, does not apply to structures subjected to significant fatigue under variable loads. It does also not apply to structures with tendons temporarily ungrouted during construction.

Part 1-6: Plain concrete structures

EN 1992-1-6 provides supplementary rules to the general rules given in ENV 1992-1-1 for the design of components in building and civil engineering works in plain concrete made with normal weight aggregate.

Part 2: Reinforced and prestressed concrete bridges

EN 1992-2 gives a basis for the design of bridges in plain, reinforced and prestressed concrete made with normal and light weight aggregates.

* General * Basis of design * Materials * Durability and cover to reinforcement *

Structural analysis Structural analysis is a branch of solid mechanics which uses simplified models for solids like bars, beams and shells for engineering decision making. Its main objective is to determine the effect of loads on physical structures and their c ...

* Ultimate limit states * Serviceability limit states * Detailing of reinforcement and prestressing tendons - General * Detailing of members and particular rules * Additional rules for precast concrete elements and structures * Lightweight aggregate

structures * Plain and lightly reinforced concrete structures * Design for the execution stages

Part 3: Liquid retaining and containing structures

EN 1992-3 complements EN 1992-1-1 for the particular aspects of liquid retaining structures and structures for the containment of granular solids.

External links

The EN EurocodesEN 1992: Design of concrete structuresEurocode 2 CommentaryEN 1992 - Eurocode 2: Design of concrete structures - "Eurocodes: Background and applications" workshop
{{Authority control #01992 Prestressed concrete construction Reinforced concrete 2