Experimental & Analytical Investigation of Progressive Collapse Through Demolition Scenarios & Computer Modeling
Within the past 40 years, abnormal loadings resulting from natural hazards, design flaws, construction errors, and man-made threats have induced progressive collapse in structures all over the world. As progressive collapse behavior has become more prominent, it has...Extending the Collapse Time of Non-Engineered Masonry Buildings Under Seismic Loading
DThe collapse of non-engineered masonry is one of the greatest causes of death in major earthquake events around the world, yet by definition non-engineered structures remain largely outside of the scope of modern engineering research. For this reason, the majority of...3-D Applied Element Method for Static Non-Linear Simulation of PP-band Retrofitted Masonry
Masonry, through its long history, is widespread used around the world and still remains a main building material in many places especially developing countries. However a poorly designed masonry is known as brittle and susceptible to the earthquake. To improve their seismic capacity, polypropylene band retrofitting technique method was purposed base on economic point of view and local availability of material and skilled labor. In this study, we proposed 3-D Applied Element Method as analysis tools to help understanding the polypropylene band retrofitted masonry behavior which will be benefit in the future design process. Unlike the previous version, 3-D Applied Element Method elements can be any rectangular prism which helps reducing the number of elements.