seismic behaviour of beam column joint

Seismic behaviour of beam-column joint

Submitted by:- Saurabh gehlod 2k14/ste/15

Content:

• Beam column joint• Types of beam column joint.• Behaviour of joint during earthquake.• Types of failure.• Reinforcement of joints.• Innovative techniques.• conclusion

Beam-column joint:

• Beam Column joint In RCC buildings the portion of column that are common to the beam at their intersection are called beam-column joints.

• Beam-Column joints are the weakest link in RC moment resisting frame

Types of beam-column joint

Depending upon the location of joint in the structure, the joints are classified in three groups as follows: • Corner Joint • Exterior Joint • Interior Joint

Why beam column joints are important…??

• Since their constituent materials have limited strengths, the joints have limited force carrying capacity.

• When forces larger than these are applied during earthquakes, joints are severely damaged.

• Repairing damaged joints is difficult, and so damage must be avoided.

Thus, beam-column joints must be designed to resist earthquake effects

BEHAVIOR OF JOINTS DURING EARTHQUAKE

• During earthquake shaking, the beams adjoining a joint are subjected to moments in the same direction either in clockwise or anti-clockwise

• If the column is not wide enough or if the strength of the concrete in the joint is low, there is insufficient grip of concrete on the steel bars. In such condition the bar slips inside the joint region and beam lose their capacity to carry load.

Under these pull and push forces at top and bottom ends joints undergo geometric distortion

Failure mechanism:

These pull-push forces on joint cause two problems:• Loss of grip on beam bars in joint region • distortion of joints causing diagonal cracks and

crushing of concrete.

Which result in failure of beam-column joint under earthquake effect.

Types of failure of beam-column joint:

Two types of failure generally occures at Beam column joint:• Shear failure• Anchorage failure

shows a typical detail of exterior beam-column joint and acting horizontal forces

Three types of anchorage failure of hooked bar are definedA. Side splitting failure

B. Local compressive fracture C: Raking-out failure:

Faliure of beam column joint:

Faliure of beam column joint:

Faliure of beam column joint:

Diagonal cracking & crushing of concrete can be prevented in Joints

• Using large column sizes is the most effective way of achieving this.

• In addition, closely spaced closed-loop steel ties are required around column bars to hold together concrete in joint region and to resist shear forces.

• Intermediate column bars also are effective in confining the joint concrete and resisting horizontal shear forces

Reinforcement of beam column joint

• Indian Standard IS:13920-1993 recommends continuing the transverse loops around the column bars through the joint region.

• In practice, this is achieved by preparing the cage of the reinforcement (both longitudinal bars and stirrups) of all beams

• However, this may not always be possible particularly when the beams are long and the entire reinforcement cage becomes heavy.

• It is preferable to have columns with sufficient width. Such an approach is used in many codes

• In interior joints, the beam bars (both top and bottom) need to go through the joint without any cut in the joint region.

• These bars must be placed within the column bars and with no bends.

• The Indian Standard IS:13920-1993 requires building columns in seismic zones III, IV and V to be at least 300mm wide in each direction of the cross-section when they support beams that are longer than 5m or when these columns are taller than 4m between floors (or beams).

• The American Concrete Institute recommends a column width of at least 20 times the diameter of largest longitudinal bar used in adjoining beam

Anchorage of beam bars

Other innovative techniques

• RC beam column joint strengthening by FRP wrapping.

• Strengthening of beam-column joint with steel fibre reinforced concrete during earthquake loading.

• Reinforced concrete moment resisting frames

conclusion

• Closed loop and intermediate column resists ill effects of distortion of joints.

• Greater width of the column • Beam bars are within column bars and straight • L-shape bar bends for large columns

thankyou