DYNAMIC RESPONSE OF A RIGID SLAB SUPPORTED BY FOUR RIGID CYLINRICAL ROCKING AND WOBBLING COLUMNS
Abstract eng: Letting columns uplift has been proposed as an earthquake response modification strategy for bridges and other large structures. Uplift could be allowed along solely one direction of the structure or along both directions. In order for the latter approach to be implemented, the 3d behavior of systems allowed to uplift, rock and wobble should be studied. This paper studies the dynamic response of a rigid slab supported on 4 rigid cylindrical rocking and wobbling columns. The columns are constrained not to roll out of their initial position, which is a necessity for the system to be resilient. This system is the simplest 3d extension of the 2d rocking frame system. The equations of motion are derived analytically and directly numerically integrated. Since the system has only 2DOFs it is computationally inexpensive and allows for extensive parametric analysis. Similar to the 2d rocking frame, it is found that the addition of the slab makes the investigated frame more stable than the individual columns.
Contributors:
Publisher:
National Technical University of Athens, 2017
Conference Title:
Conference Title:
COMPDYN 2017 - 6th International Thematic Conference
Conference Venue:
Rhodes Island (GR)
Conference Dates:
2017-06-15 / 2017-06-17
Rights:
Text je chráněný podle autorského zákona č. 121/2000 Sb.
Record appears in:
Record created 2017-06-22, last modified 2017-06-22
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