After the Haitian earthquake there was a much stronger earthquake in Chile, but was much less devastating, because of the difference of Chile having a building codes and Haiti having no building codes. This should be something that is regulated by the government, but most engineers and architects don’t turn in plans for approval because of the understaffed and unequipped department, so most buildings are built with substandard materials and not designed to withstand earthquakes, unlike in Chile where each proposed building and site goes through extensive testing, and licenses engineers, architects and engineers. Because buildings weren’t reviewed many buildings that have supports don’t work to support the building with strong horizontal external forces. The majority of the Haitian population live in Port-au-Prince and over half of the population lives in poverty, so there’s a high demand for cheap housing, this high demand results in “rapid construction with little engineering input”. The reason that this is possible is because of the total absence of the state in Haiti”(Oliver-Smith) Haiti’s government doesn’t have the best reputation when it come to helping the people that elect them(I need to find a source to support my further claims).
The reason that Chile is compared to Haiti is that both of these countries had earthquakes early in 2010. While Chile had an 8.8 magnitude on the Richter magnitude scale and the death toll was approximately five hundred and fifty. As previously stated the earthquake in Haiti was a 7.0 and the estimated death toll is one hundred sixty thousand. Chile has a history of earthquakes, being in the Ring of Fire creates significant earthquakes, such as the 1960 9.5 earthquake and 1985 7.8 earthquake. Following the 1985 earthquake the Chilean government implemented a strict building code. (chilean building codes). Rates their soils into 4 types. One of the reasons that Haiti was so drastic is that the ground soil had few plants and had a high water saturation rate, which is why the ground turned to liquid upon the shaking of the earth.
Ring beams was the most significant change done in Sustainable Housing Reconstruction. The group did more work around the community such as infrastructure such as walkways, underground drainage, lights and sanitation(Charlesworth). Some houses that were damaged but not destroyed were refitted with the necessary modification of the ring beam, which was described more in Li You and Wen Liu’s paper with studied the effects of coal mining on the ground and how people continued to build on the ground that would shift randomly. The effects of coal mining to the quality of the ground is very similar to the ground in Port-Au-Prince which is To continue using building on sites that were being mined, the building needed to use ring beams to resist the potential movement of the ground caused by the effects of mining. They must almost be used in developing buildings since its unsure of when the effects of the mining become minute or the ground becomes stable again. The required ring beams strengthens the stiffness and integrity of the building and improves the building’s ability to resist ground deformation.
An example I found that can be related to type of ground that is in Port-au-Prince and the ground found in China The reason that ring beams in buildings in coal mining areas is so relevant to Haiti is how the coal being extracted from the ground affects how the ground moves. Some measures to continue building’s ability to continue safely housing people with ring beams. (Chinese mining)
“In Analysis on Rationality of Deformation Resistance Structural Component Ring Beam”, which focuses on buildings that are built on mining areas. Because of the mining the land is unstable to building that existed before the mining began or building that were built before ground becomes stable . The term used is confrontation deformation construction. Some of the determining qualities are the location, structure type and size, the deformation types and deformation size. The ring beam strengthens the stiffness of the building and the integrity of the building and the building’s ability to resist the grounds deformation. The buildings that are built on barren material on the after the coal mining is done, the ring beam is a common rigidity protection. The ring beam is combined with the framework of the building. The coal mine grounds move, so this a subdued, man made earthquake, so this is an example of by its so important to be used in earthquake active areas as well as other areas where the framework of a house needs extra reinforcement, such as areas that are affected by hurricanes and tornadoes, but buildings in those areas need to be raised off of the ground to be protected the house from water damage and being dragged away by the force of the water. In the case of tornados there is a room in the center of buildings that has no windows, but no home can withstand a direct hit from a severe tornado.
Following the earthquake in Gujarat in 2001, the city used land reconstruction as part of it’s reconstruction process. This process was first used in Japan and then in Gujarat in India. The process was city level planning which was followed by case studies in the most damaged areas. Outside of Japan this is one of the few examples were land readjustment were land readjustment was successful in reconstruction efforts after a disaster. Land readjustment has landowners combine their land. My source said it’s “characterized by a reduction in lot sizes to create public land and to widen and straighten out streets, plots, and blocks for the purpose of installing physical infrastructure” (Hien 2010). Its most commonly used in the fringe area of cities to transform irregular shaped plots into more usable spots.
Whenever my family donates to a new organization, we like to do research about how much of our donation will actually go towards the efforts we want to support (A good source for this would be Watchman)(“‘Poverty’ has been translated into considerable comfort for some people”)