Reinforced concrete biaxial bending
Reinforced Concrete Biaxial Bending
Reinforced concrete biaxial bending is the stress state of a reinforced concrete element subjected to axial force and two orthogonal moments and is usually found in column design. This page is entended to give you an overall view of reinforced concrete material and of its biaxial bending behaviour.
Reinforced concrete is a structural material used worldwide. It's composed of concrete and steel bars.
Concrete has a good behavior under compression but is week under tension. As a approximation, concrete characteristic tension resistance is about 1/15 to 1/10 of its characteristic compression resistance.
Steel bars have a good tension resistance and a good bound to concrete.
Connecting steel bars and concrete leads to structural elements that have a good behavior under compression and bending.
Steel reinforcement also gives concrete ductility and removes britle behavior if minimum reinforcement area is respected.
Reinforced concrete is usually named RC, in short. RC behavior must be analyzed taking into account concrete behavior, steel behavior and cracking. Steel has a linear behavior until yielding and a non linear behavior above that point. Steel is usually modeled with a elastic-plastic or bi-linear stress-strain relationship. Concrete has a non-linear behavior as cracks under small tension stresses which increases his non-linearity. Taking the above into account, reinforced concrete is a non-linear material and must be analyzed as such.
When a beam or a column is subjected to a transversal load it bends. When the load is applied in two orthogonal directions the structural elements suffers bending in two orthogonal directions. This effect is called biaxial bending. Eurocode 2 (EN1992-1-1:2004) [EN1992-1-1:2004: Eurocode 2: Design of concrete structures - Part 1-1: Generalrules and rules for buildings (§5.8.1))] has the following definition for biaxial bending:
Biaxial bending: simultaneous bending about two principal axesWhen a structural element is subjected to an axial force simultaneously with biaxial bending we reach a stress state that is called biaxial bending with axial force. In short, biaxial bending with axial force is a stress state that has non null axial effort, and two orthogonal bending moments.
Tools for analyze biaxial bending with axial force
The need of tools for biaxial bending with axial force analysis started as soon as the use of reinforced concrete columns. The non-linear behavior of RC leads this problem to not have an analytic solution. The first methods developed where based in tables and abacus written with computer help. Those tables and abacus where also transformed into simplified analytic expressions using numerical approaches. Eurocode 2 (EN1992-1-1:2004) has a paragraph reserved to this simplified methods [EN1992-1-1:2004: Eurocode 2: Design of concrete structures - Part 1-1: Generalrules and rules for buildings (§5.8.9))] . With personal computer development, commercial software applications where constructed which incorporates solving of biaxial bending with axial force through fast and accurate methods. Nowadays, almost every RC commercial software as a routine dedicated to this issue. The advent of new web page formats allowed online softwares to be developed, and online applications appeared to solve biaxial bending with axial force.
* [http://www.afhtech.com/RC/RC.aspx Online Biaxial Bending Software Sample]
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