The new ISO 11031 can be used to calculate seismic loads, and sets out the design principles for cranes destined to work in seismically-active regions and for cranes required to be seismically-resistant.
Klaus Pokorny, secretary of the ISO subcommittee working on design principles and requirements for cranes, said: “To make sure that cranes are safe, we first need to calculate the seismic loads that show how a crane will respond in moderate to severe earthquakes. Then you can use design limit states provided in two forms: serviceability limit and ultimate limit.
“The serviceability limit state (SLS) ensures that the crane can withstand the effects of moderate earthquake ground motions throughout its service lifetime and continue to operate as intended. The ultimate limit state (ULS) requires that the crane structure should not collapse during severe earthquake ground motions, and that the suspended load or any other part of the crane should not fall or harm the public, operators and workers.”
Pokorny added: “Any evaluation should take into account the regional seismic conditions as well as the ground surface conditions at the crane location. It’s also important to consider how the crane will be used and any risks that could result from seismic damage.
“Not only will ISO 11031 add a layer of confidence to the industry, it also provides a common technical language so that manufacturers, users and owners understand each other clearly, no matter where they are — a boost for global trade.”
The need of a standard to ensure seismic-resistant cranes was first highlighted by Japan, after the 1995 earthquake in Kobe.
This article was written by Vania Goncalves and was first published on World Construction Network..
