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Earthquake Resistant Structures
- 2. AGENDA What is Earthquake? How earthquake occurs? Causes and effects of Earthquakes Quality control Techniques for resist Earthquakes Shear walls Advantages of Shear walls Dampers Conclusion
- 3. What is earthquake? They are natural disasters of a generally un predictable nature It is the shaking of earth due to the movement of earth’s crust A sudden, rapid shaking of earth caused by the breaking and shifting of rocks beneath the earth surface
- 4. How Earthquakes occurs? Earthquakes occur when two tectonic plates move suddenly against each other. Because of earth’s rotation and other energy factors different shells or the rock layers constantly move or slid past each other. Different continental mass fragments of lesser densities float and move overriding the denser rock layers.
- 5. Causes and Effect of Earthquakes Earthquakes are casually related to compression or tensional stresses. Volcanic eruptions, rock fall, landslides and explosions can also cause a quake Land slides Liquefaction Tsunamis
- 6. Quality control Special care is needed in construction to ensure that the elements meant to be ductile are indeed provided with features that give adequate ductility. Thus, strict adherence to prescribed standards of construction materials and construction processes is essential in assuring an earthquake resistant building.
- 7. Elements of Good quality control Regular testing of construction materials at qualified laboratories(at site or away) Periodic training of workmen at professional training houses, and on site evaluation of the technical work
- 8. Techniques for Resist Earthquakes Shear walls Bracing Dampers Isolation Rollers
- 12. Dampers Dampers can be installed in the structural frame of a building to absorb some of the energy going into the building from the shaking ground during an earthquake. The dampers reduce the energy available for shaking the building. This means that the building deforms less, so the chance of damage is reduced. There are many types of dampers that can be installed in buildings. Here are some of them:
- 13. Metallic damper Metallic dampers are usually made from steel. They are designed to deform so much when the building vibrates during an earthquake that they cannot return to their original shape. This permanent deformation is called inelastic deformation, and it uses some of the earthquake energy which goes into building. X - Plate Metallic Damper
- 14. Friction Damper Friction dampers are designed to have moving parts that will slide over each other during a strong earthquake. When the parts slide over each other, they create friction which uses some of the energy from the earthquake that goes into the building.
- 15. The damper is made up from a set of steel plates, with slotted holes in them, and they are bolted together. At high enough forces, the plates can slide over each other creating friction. The plates are specially treated to increase the friction between them.
- 16. Viscous Damper Viscous fluid dampers are similar to shock absorbers in a car. They consist of a closed cylinder containing a viscous fluid like oil. A piston rod is connected to a piston head with small holes in it. The piston can move in and out of the cylinder. As it does this, the oil is forced to flow through holes in the piston head causing friction.
- 17. Suggestions Avoid weak column and strong beam design Provide thick slab which will help as a rigid diaphragm Provide cross walls which will stiffen the structures Provide shear walls in a symmetrical fashion Increase in the transverse (Shear) reinforcement. Horizontal lintel band should be provided Revision/ updation of building code of Pakistan The building must be regular and symmetrical in shape Reinforcing bars should be provided at the corners and the junctions of the walls