Abstract
The basis for modern earthquake resistance design can be considered to be a two stage process, the objectives of which provide the structure with sufficient strength and stiffness to resist moderate earthquakes so that the frequency of occurrence of structural and non-structural damage is acceptably low; and ensure that the probability of collapse of the structure and the risk to life in a severe earthquake is acceptably low. The first stage can be satisfied by seismic zoning and by restricting interstorey deflections under moderate earthquakes. The second stage can be satisfied by the use of structural type factors. This study explains how these principles were used to develop seismic zones and evaluate lateral loadings for equipment resistant design for buildings in Papua, New Guinea.
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CITATION STYLE
Jury, R. D., Hollings, J. P., & Fraser, I. A. N. (1982). DEVELOPMENT OF SEISMIC ZONES AND THE EVALUATION OF LATERAL LOADINGS FOR EARTHQUAKE RESISTANCE DESIGN OF BUILDINGS. Bulletin of the New Zealand National Society for Earthquake Engineering, 15(3), 123–140.
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