Title:
Hysteretic Behavior of Ferrocement-Retrofitted Clay Tile Walls
Author(s):
Richard P. Clarke and Anil K. Sharma
Publication:
Structural Journal
Volume:
101
Issue:
3
Appears on pages(s):
387-394
Keywords:
ferrocement; seismic; shearwalls
DOI:
10.14359/13098
Date:
5/1/2004
Abstract:
Masonry piers comprised of 100 mm hollow clay tile in the end-construction configuration and retrofitted with ferrocement coatings and base anchors were tested under in-plane lateral load. Such unreinforced masonry wall construction is typical for residential structures in the South Caribbean and parts of South America. Pseudostatic loading consisting of increasing reversed cyclic displacements was applied until failure. The hysteresis loops and loop envelopes for the specimens are presented as well as changes in loop envelope properties such as ultimate strength and ductility with control variables such as the number of mesh layers. Data on stiffness and strength degradation are also presented. The experimental response of each wall is described by a semi-empirical differential equation hysteresis model in terms of a number of parameters, and the identified parameters for each specimen are presented as well. In general, it was found that the ferrocement retrofitting substantially enhanced the walls’ energy absorption, ductility, and strength.