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Why stirrup is provided in beam?

Why stirrup is provided in beam?

The main aim of providing stirrups in beam is to hold the main reinforcement rebars together in RCC structure. They are provided at proper intervals to beam and columns for preventing them from buckling. Stirrups also protect the RCC structures from getting collapsed during earthquakes.

Why do you provide stirrups?

Stirrups are provided to hold the main reinforcement rebars [1] together in an RCC structure. Stirrups are placed at proper intervals to beams and columns to prevent them from buckling. Also, they protect RCC structures from collapsing during seismic activities (earthquakes).

Why do we provide hook in reinforcement?

Hooks are offered for to oppose seismic movement. To avert concrete from partitioning externally. It averts steel slippage from the concrete. To maintain longitudinal steel bars in place as well as keep steel firmly.

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What are different types of hooks provided in reinforcement?

As per standard ACI 318-11, Section 7.1, there are three types like 90-degree hooks (those contain a 12-bar diameter extension on the “hook” leg pin to end), 180-degree hooks, and “Stirrup and tie” hooks (those contain a 6- to 12-bar diameter extension on the “hook” leg pin to end, based on bar diameter).

What are hook bars?

A steel reinforcing bar, for use in reinforced concrete, with the end bent into a hook to provide anchorage.

Why more stirrups are provided near the support?

Purpose of providing Closer Stirrups Spacing at both Top & Bottom end in RCC Column . Spacing of ties is calculated as per the plastic moment capacity of the column . The spacing you come up is required at the ends because the moments at the ends is greater and you have most of the cracking going on in the end zones.

Why ties and stirrups are used in column and beam?

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The term stirrups is used to define the transverse reinforcement provided in beam where the primary mode of load transfer is through bending and shear. Here the requirement of transverse reinforcement is to prevent shear cracks in the beam which could result in failure.