Experience from recent earthquakes such as Gilan, Zanjan, Bam and Lorestan earthquakes in Iran indicated that the constructed buildings are vulnerable against earthquake. Vulnerability of these structures is due to va...Experience from recent earthquakes such as Gilan, Zanjan, Bam and Lorestan earthquakes in Iran indicated that the constructed buildings are vulnerable against earthquake. Vulnerability of these structures is due to various reasons such as designing without considering seismic regulations, problems of regulations (design goals), implementation problems, changing of the building occupancy class, increasing the weight of building stories, adding new stories to the building and changing in architecture of building without considering structural system. So the main objective of this research is to examine the features of building configuration and their effects as for the damages to buildings in past earthquakes. For this purpose, initially four occurred earthquakes in Iran are selected as case study. Then three types of buildings (steel structure, concrete structure and masonry buildings) are analyzed with details. Results showed that the most of damages are occurred in the old steel structures and masonry buildings which their ages are more than 25 years. The study showed that most of the buildings in the study area are steel structure and masonry buildings while concrete structures are infrequent which most of them had no or slight damages. Therefore, the importance and need to enhance the performance of available buildings against earthquake forces by rehabilitating methods would be more important than before. Also results indicated that the decisions related to architectural plan which have significant effect on seismic performance of buildings, can be divided into three categories: configuration of building, restrictive formal architectural plan and dangerous structural components, as these categories are not obstacle of each other, it is possible that each category has an influential effect on others. So organizing the design decisions in this way is very important so as to manage their effects and interdependencies.展开更多
Globalized cultures,imaginaries,and economies are often matched to the standardization of building approaches.However,solutions that are not tailored for a specific context tend to entail environmental,economic,and so...Globalized cultures,imaginaries,and economies are often matched to the standardization of building approaches.However,solutions that are not tailored for a specific context tend to entail environmental,economic,and social issues.Throughout human history,vernacular wisdom has produced interesting low-energy and climate-responsive architectures all around the globe:These can be seen as interesting examples in an era of global warming and overall uncertainty;at the same time,they represent accessible sustainable solutions in deprived areas of the world as well as in wealthier areas.The experience of participatory design and building process is here presented,carried on in a rural area of El Salvador,Central America.A sanitary facility for a school is designed and realized after the collectively desired recovery and improvement of one of the fruits of local vernacular wisdom in building design,i.e.,the adobe earth brick.Some potentials and limits of such experience as well as of the used technology are reviewed in the perspective of affordable and ecologically sustainable housing and settlements in the area.展开更多
文摘Experience from recent earthquakes such as Gilan, Zanjan, Bam and Lorestan earthquakes in Iran indicated that the constructed buildings are vulnerable against earthquake. Vulnerability of these structures is due to various reasons such as designing without considering seismic regulations, problems of regulations (design goals), implementation problems, changing of the building occupancy class, increasing the weight of building stories, adding new stories to the building and changing in architecture of building without considering structural system. So the main objective of this research is to examine the features of building configuration and their effects as for the damages to buildings in past earthquakes. For this purpose, initially four occurred earthquakes in Iran are selected as case study. Then three types of buildings (steel structure, concrete structure and masonry buildings) are analyzed with details. Results showed that the most of damages are occurred in the old steel structures and masonry buildings which their ages are more than 25 years. The study showed that most of the buildings in the study area are steel structure and masonry buildings while concrete structures are infrequent which most of them had no or slight damages. Therefore, the importance and need to enhance the performance of available buildings against earthquake forces by rehabilitating methods would be more important than before. Also results indicated that the decisions related to architectural plan which have significant effect on seismic performance of buildings, can be divided into three categories: configuration of building, restrictive formal architectural plan and dangerous structural components, as these categories are not obstacle of each other, it is possible that each category has an influential effect on others. So organizing the design decisions in this way is very important so as to manage their effects and interdependencies.
文摘Globalized cultures,imaginaries,and economies are often matched to the standardization of building approaches.However,solutions that are not tailored for a specific context tend to entail environmental,economic,and social issues.Throughout human history,vernacular wisdom has produced interesting low-energy and climate-responsive architectures all around the globe:These can be seen as interesting examples in an era of global warming and overall uncertainty;at the same time,they represent accessible sustainable solutions in deprived areas of the world as well as in wealthier areas.The experience of participatory design and building process is here presented,carried on in a rural area of El Salvador,Central America.A sanitary facility for a school is designed and realized after the collectively desired recovery and improvement of one of the fruits of local vernacular wisdom in building design,i.e.,the adobe earth brick.Some potentials and limits of such experience as well as of the used technology are reviewed in the perspective of affordable and ecologically sustainable housing and settlements in the area.