Overview Architecture of Earthquake Resistant Buildings.

This architecture of earthquake resistant buildings review is very useful for residents who live in earthquake areas. They need access to architecture of earthquake resistant buildings. So they can customize the available resources with architecture of earthquake resistant buildings.

Our previous writings have examined the damage to buildings caused by earthquakes. We have also studied the concept of the simple earthquake-resistant building. This is important for people living in earthquake-prone areas.

architecture of earthquake resistant buildings
architecture of earthquake resistant buildings

Simple earthquake-resistant residential buildings in an architectural review include three things: the discussion of design, roof and wall building openings.

Architecture of Earthquake Resistant Buildings – Design.

Building design should have a symmetrical shape because this form can eliminate the effect of torsion. Simple symmetrical design forms, among others, squares and rectangles.

But we can choose a symmetrical design that is not simple for our home. The shape of the circle and the many facets is including the design of a symmetrical shape that is not simple.

Buildings that have an asymmetrical design should be separated into sections that have a symmetrical shape.

You must separate the L-shaped building into two square and rectangular buildings. You should also separate the T-shaped building into 2 or 3 square-shaped symmetric designs and rectangles.

To avoid twisting effects on buildings, you must separate the asymmetric shape into a symmetrical shape.

Design that is too long will reduce the strength (performance) of buildings if there is a decrease in buildings and differences in movement behavior. This is due to the effects of non-structural reality and the reality of loading. Therefore, you should separate buildings according to the conditions of land and building uniformity.

For example the building is too long then you have to separate into 2 or three sections of the square shaped building.

Architecture of Earthquake Resistant Buildings – Roof Building.

Basically, roof forms that are too big and too heavy can endanger the security of the structure as it can lead to larger earthquake loads. Therefore, roof buildings should use lightweight roofing materials such as zinc, asbestos or aluminum. You should tie the asbestos or zinc roofing material on gording with nails, iron plates or bolts.

For areas one and two, when using a roof tile should be tied to the batten. While on the tile that has a hole can be tied to a nail. The tile that does not have a hole should be tied every 4-lane roof with wire fastener.

Overstek usage that is too long can cause the center of the building to shift from the center of the building. Long oversteks are also vulnerable (more risky) to earthquake-shaking vertical directions.

Simple Earthquake Resistant Building Concept.

This simple earthquake resistant building is very useful for residents who live in the quake areas. This time we’re not discussing the cause of the earthquake here, maybe next time on another page at free-technews.info.¬† Countries with middle-low income inhabitants desperately need a simple earthquake resistant building concept. People in low-income countries generally do not pay attention to simple earthquake resistant building techniques.¬†They only utilize the natural resources that exist around.

Objectives Planning for Earthquake Resistant Buildings.

The purpose of planning earthquake resistant buildings as follows below.
Prevent and reduce the incidence of human fatalities.
Prevents, reduces, or protects people from injury.
Prevent and reduce the occurrence of damage to buildings.
Prevent and reduce the incidence of damage to the contents of the building (property, furniture, and valuables).

earthquake resistant building
earthquake resistant building

We can formulate earthquake resistant building concepts based on references written by earthquake experts, institutions and studies from a field survey in earthquake-damaged areas.

The Principles of Earthquake Resistant Buildings.

Earthquakes can be classified into 3 levels ie, light earthquakes, moderate earthquakes, and heavy earthquakes. In the construction of simple earthquake resistant, residential buildings must meet the principles of earthquake-resistant buildings. These principles are as follows.

In the event of a light earthquake, the building is not damaged.

In the event of a moderate earthquake, the technical building may suffer damage to non-structural elements but should not be damaged in its structural elements. Simple earthquake-resistant buildings may damage the walls.

In case of a major earthquake, the technical building may suffer damage to its non-structural elements and structures. Fixed buildings should not collapse, while simple buildings may suffer wall damage and retrofitting practically. We can still repair the damages that arise.

Buildings that are resistant to large earthquakes are ductile buildings (clay, a lot). The ductile building is the ability of the building to change shape but still can accept the burden. The opposite of ductile builds is the brittle building. The brittle building is not very resistant to earthquake shocks.