| Database-Assisted Design for Wind: Concepts, Software, and Example for High-Rise Reinforced Concrete Structures Contributor(s): Nist (Author) |
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ISBN: 1497334500 ISBN-13: 9781497334502 Publisher: Createspace Independent Publishing Platform OUR PRICE: $13.29 Product Type: Paperback Published: March 2014 |
| Additional Information |
| BISAC Categories: - Technology & Engineering | Engineering (general) |
| Physical Information: 0.19" H x 8.5" W x 11.02" (0.51 lbs) 90 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Time-domain analyses of wind effects on high-rise structures have been made possible in recent years by advances in wind pressure measurement and computer technology. Time domain solutions not only provide full phase information on structural responses to wind but can also account naturally for modes of vibration of any shape, including any number of higher modes of vibration, as well as for mode coupling. This study applies the Database-Assisted Design (DAD) methodology to the design of reinforced concrete high-rise structures. Given (a) the time histories of pressures, measured in the wind tunnel at a sufficient number of taps on the exterior faces of the building envelope for a sufficient number of mean speed directions, and (b) a preliminary design of the building, it is possible to calculate response databases for the demand-to-capacity indexes, inter-story drift, and top floor accelerations, that is, databases of responses induced by wind with any specified speed and direction. These responses are functions of the building s aerodynamic, geometric, structural, and dynamical features and are independent of the wind climate. The response databases are used in conjunction with a wind climatological database typically obtained by Monte Carlo simulation from measured extreme wind climatological data. The design is performed iteratively until the peak responses satisfy the design specifications. The present study is the first to apply Database-Assisted Design techniques to reinforced concrete high-rise buildings, and is in our opinion superior to conventional approaches currently in use from the point of view of physical modeling, accuracy, transparency, and convenience to the designer. |