Full-Scale Dynamic Response of High-Rise Building to Lateral Loading
Publication: Journal of Performance of Constructed Facilities
Volume 12, Issue 1
Abstract
Vibration measurements were made on a high-rise condominium structure in Singapore to obtain its dynamic characteristics. Subsequently the response and wind characteristics were measured over a 15-month period. Based on combination of the measurements it is possible to show how the structure responds to wind and other lateral loading. The main conclusions are that the dynamic component of response to wind is low, mainly due to the low wind speeds encountered in Singapore. Even so, although the mean wind speeds are low, the wind has high gust factors. The measured response of the building to a tremor arising from an earthquake in nearby Sumatra was an order of magnitude larger than the maximum measured dynamic response due to wind. It appears that the code provisions for lateral load would be adequate for this building even in strongest (design) winds, but the validity of code provisions for large far-field tremors is not proven.
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References
1.
“British standard. Loads for buildings, Part 2.” (1995). BS6399, British Standards Institution, U.K.
2.
“British standard. Structural use of concrete: Code of practice for design and construction, Part 1.” (1985). BS8110, British Standards Institution, U.K.
3.
Brownjohn, J. M. W. (1994). “Estimation of damping in suspension bridges.”Proc., Inst. Civ. Engrs. Struct. and Bldgs., Vol. 104, 401–415. Thomas Telford Services Ltd., London, U.K.
4.
Choi, E. C. C. (1996). “Measurement of wind and wind-driven rain in Singapore.”Civ. Engrg. Res., School of Civ. and Struct. Engrg., Nanyang Technol. Univ., Singapore, 9–10.
5.
“Code of basic data for the design of buildings, Chapter V, Part 2.” (1972). CP3, British Standards Institution, U.K.
6.
Pan, T. C. (1995). “When the doorbell rings: A case of building response to a long distance earthquake.”Earthquake Engrg. and Struct. Dyn., Vol. 24, 1343–1353. John Wiley & Sons, Inc., New York, N.Y.
7.
Simiu, E., and Scanlan, R. H. (1978). Wind effects on structures. John Wiley & Sons, Inc., New York, N.Y.
8.
Smith, J. W. (1988). Vibrations of structures: Applications in civil engineering design. Chapman & Hall, Ltd., London, U.K.
9.
Udwadia, F. E., and Trifunac, M. D. (1974). “Ambient vibration tests on full-scale structures.”Proc., 5th World Conf. on Earthquake Engrg., Vol. 2, Ministry of Public Works, Rome, 1430.
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Copyright © 1998 American Society of Civil Engineers.
History
Published online: Feb 1, 1998
Published in print: Feb 1998
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