CEE Seminar: Rocking Isolation: An Effective Strategy for Limiting Forces, Permanent Displacements, Damage and Cost
March 3, 2020 - 12:00pm to 1:00pm
Nicos Makris, Addy Family Centennial Professor in Civil Engineering, Southern Methodist University
The uplifting and rocking of slender, free-standing structures when subjected to ground shaking may limit appreciably the seismic moments and shears that develop at their base. While the unparalleled seismic performance of rocking isolation has been documented with the through-the-centuries survival of several free-standing ancient temples; and careful post-earthquake observations in Japan during the 1940's suggested that the increasing size of slender free-standing tombstones enhances their seismic stability; it was Housner (1963) who elucidated a size-frequency scale effect and explained that there is a safety margin between uplifting and overturning; and as the size of the column or the frequency of the excitation increases, this safety margin increases appreciably to the extent that tall, free-standing columns enjoy ample seismic stability. This talk revisits the important implications of this post-uplift dynamic stability and explains that the enhanced seismic stability originates from the difficulty to mobilize the rotational inertia of the free-standing column. As the size of the column increases, the seismic resistance (rotational inertia) increases with the square of the column size; whereas, the seismic demand (overturning moment) increases linearly with size. The same result applies to the articulated rocking frame given that its dynamic rocking response is identical to the rocking response of a solitary free-standing column with the same slenderness; yet...
Carpenter, Ruby Nell