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The property firm behind Japan’s new tallest building, which opened at the Azabudai Hills development in Tokyo last July, claims its quake-resistant design features — including large-scale ...
List of earthquakes in Japan; Tō-ji; The Japanese page on the architecture of the 5-tier pagoda of Japan contains sections about the debated reason behind pagodas' quake-resistance – one of the two theories is the Shinbashira, and also lists the types of styles in which the Shinbashira is employed in the building of the structure.
Concurrent shake-table testing of two or more building models is a vivid, persuasive and effective way to validate earthquake engineering solutions experimentally. Thus, two wooden houses built before adoption of the 1981 Japanese Building Code were moved to E-Defense [5] for testing. One house was reinforced to enhance its seismic resistance ...
The 3-D Full-Scale Earthquake Testing Facility [1] or E-Defense (Japanese: E-ディフェンス) is an earthquake shaking table facility in Miki, Hyōgo Prefecture, Japan. [2] Operated by the Japanese National Research Institute for Earth Science and Disaster Resilience (NIED), [ 3 ] it was the largest 3D earthquake shake table in the world ...
In the wake of last week's devastating earthquake and tsunami in Japan, prospective home buyers may be asking themselves what about a house makes it more able to weather a natural disaster. There ...
Looking out toward the sea offered signs of how Japan’s landscape had been altered there, too. Experts say the tectonic shifts from the quake pushed the ground up 13 feet in some areas and moved ...
Japan has more than 300 high-rise buildings above 150 m (490 ft). [1] Unlike China, South Korea, Taiwan and Malaysia with skyscrapers exceeding 400 m (1,300 ft) in height, Japan's skyscrapers are relatively shorter. All buildings above 50 m (160 ft) must also be as earthquake-proof as possible and adhere to other strict structural standards.
The 1923 Great Kantō earthquake (Japan) and earlier events inspired Japanese engineer Toshikata Sano to develop a lateral force procedure that was officially implemented in the 1924 Japanese Urban Building Law, which directed engineers to design buildings for horizontal forces of about 10% of the weight of the building. [3]