![]() ![]() The second region in which these devices have been well used is California, following the Los Angeles and Northridge earthquake in 1994. Following the Kobe quake there was a large uptake of seismic isolation technology and in particular the Lead Rubber Bearing in Japan. ![]() This significant building is one that is pointed to as an example of how the lead rubber bearing technology saves a building and its contents. ![]() The Ministry of Post and Telecommunications Computer Centre came through the 1995 Kobe quake unscathed and remained fully operational. It was built by the then Ministry of Works and Development. The William Clayton building in Wellington, New Zealand, was the first in the world to be base isolated with LRBs. The Christchurch Women's Hospital is the only building in that city that uses LRBs and it was able to continue operating without any problems throughout the devastating earthquakes that occurred between September 2010 and June 2011.ĭuring the severe 1994 Northridge earthquake in Los Angeles, the LRB-protected University of Southern California Teaching Hospital remained operational while the ten other hospitals in the area were so badly damaged that they had to be evacuated. LRBs are also under the Bhuj Hospital (India) and the C-1 building (Tokyo)-the largest building in the world that is protected by these devices. Most significant bridges in NZ use base isolation technology. The LRB is used under more than US$100 billion worth of structures around the world, including New Zealand's Te Papa Tongarewa (National Museum of New Zealand), the new Wellington Hospital, Victoria University Library and Parliament Buildings. As he was a public service employee when he invented the device, the LRB patent was owned by the state. He designed the LRB in 1974 while working as a scientist for DSIR (Department of Scientific and Industrial Research, New Zealand). Robinson is most well known for his invention of the lead rubber bearing (LRB) seismic isolation device. He continued to invent and develop seismic isolation devices, travel and lecture until his early 70s. Robinson was director of the DSIR's Physics and Engineering Laboratory between 19. He earned a master's degree at the Ardmore School of Engineering, then a PhD in physical metallurgy at the University of Illinois. He grew up in West Auckland, New Zealand. William Henry Robinson QSO (2 October 1938 – 17 August 2011) was a New Zealand scientist and seismic engineer who invented the lead rubber bearing seismic isolation device. Rutherford Medal (1999), Companion of the Queen's Service Order (2007) ![]()
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