In addition, the book covers their economical and sustainability implications.Case studies are included to provide a direct understanding on the possible applications of each device category.Richly illustrated with images and schematics, this book presents expert commentary on different damping systems, giving readers a way to accurately compare between different device categories and gain and understand the advantages and disadvantages of each.
Key Features Provides an expert guide on the selection and deployment of the various types of damping technologies Drawn from extensive contributions from international experts and research projects that represent the current state-of-the-art and design in damping technologies Includes 25 real case studies collected with very detailed information on damping design, installation, testing and other building implications Show more Provides an expert guide on the selection and deployment of the various types of damping technologies Drawn from extensive contributions from international experts and research projects that represent the current state-of-the-art and design in damping technologies Includes 25 real case studies collected with very detailed information on damping design, installation, testing and other building implications Details ISBN 978-0-12-815963-7 Language English Published 2018 Copyright Copyright 2018 Elsevier Inc. Purchase the book Authors Alberto Lago Research Assistant, CTBUHIuav University of Venice, Venice, Italy Dario Trabucco Research Manager, CTBUHIuav University of Venice, Venice, Italy Antony Wood Executive Director, CTBUH, Chicago, United States About ScienceDirect Remote access Shopping cart Advertise Contact and support Terms and conditions Privacy policy We use cookies to help provide and enhance our service and tailor content and ads. Copyright 2020 Elsevier B.V. ScienceDirect is a registered trademark of Elsevier B.V. Some common configurations for building direct acting damping include open space, toggle brace, diagonal, and more. LowMid Rise Buildings Protect your building from the dangers of seismic activity with a cost-effective solution of a safer structure. Learn More High Rise Buildings Reduce the swaying motion at the top of tall buildings that is caused by wind, along with other seismic events. Learn More Bridges Create a safer structure by reducing displacement demands (from energy) produced by seismic and wind activity. Learn More Damping Solutions for Structural Applications Originally developed for NASA in the 1960s, fluid viscous dampers have successfully transitioned into the civil engineering community. Adding damping to buildings can be used for a variety of applications including seismic events, strong winds, and pedestrian energy in protecting buildings, bridges and other structures worldwide. Seismic Lation Of Tall Buildings Manual Or ContactYou can also read through our comprehensive damper manual or contact us today for more information or with any questions you may have. Seismic Lation Of Tall Buildings Manual This ComprehensiveFREE EBOOK Our First Ever Damper Design Manual This comprehensive manual is a guide for engineers with various levels of experience to take advantage of this technology to improve the dynamic performance of structures and to help save lives throughout the world. LowMid Rise Building Damper Solutions When living in an area that is prone to earthquakes, extensive means must be taken in order to preserve structural integrity. Current building codes only require that a building should not collapse during a major earthquake, however, heavy structural damage is acceptable under the current building codes, even irreparable structural damage. Taylor Devices has a variety of building damper solutions that absorb energy of an earthquake, so the building doesnt have to. Seismic Lation Of Tall Buildings Free And DesignedOur dampers are maintenance-free and designed to reduce stress, deflection, and acceleration, protecting the structure and content. Base Isolation Base isolation systems reduce structural excitation by physically decoupling the structure from the ground. This type of solution requires that the entire structure be cut loose and separated from the foundation system and isolation pads inserted in between the two. By doing so, the building will be isolated from the movement of the ground during seismic events and can achieve 6 degrees of freedom. Learn More Direct Acting Damping Using Fluid Viscous Dampers While many methods exist to implement distributed damping in a building, the underlying concept is to connect the fluid viscous dampers where motion will occur. This can include between beam and column joints or between floor levels, which deform relative to one another in a shearing-type motion. Learn More High Rise Building Damper Solutions The use of energy dissipating devices to reduce building response from dynamic inputs has become an accepted design approach for high rise buildings. New approaches are continually being developed by designers as evidenced by the varied applications of viscous dampers, tuned mass dampers, and visco-elastic dampers. These damping solutions can be added to new buildings or used as seismic retrofits to existing buildings. Each of these building damper systems has its own idiosyncrasy and the optimal solution must be evaluated for the particular project under consideration. By adding these building dampers where motion can occur, the building can be better protection against energy inputs such as wind and seismic activity.
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