by Applied Element Method | Feb 29, 2016 | Other Publications, Thesis
Unreinforced masonry (URM) structures have shown to be susceptible to significant damage during strong earthquakes. Vulnerability assessment of URM buildings is needed so that appropriate mitigation strategies can be implemented. The existing Canadian practice consists of rapid seismic screening of buildings to assign priorities for further and more refined assessments, followed by refined analysis of individual critical buildings.
by Applied Element Method | Feb 23, 2016 | Other Publications, Thesis
Current research with respect to the protection of civilian infrastructure against complex blast loading conditions is primarily focused towards the effect of external explosive sources. As a consequence, the general literature on internal building detonations and specifically in the context of protective design and assessment of structures against these loading conditions is incomplete. Existing guidelines developed for comparatively noncomplex external explosive blast remain unconservative when applied to internal building detonations due to blast wave confinement and complex interaction with structural components. In particular, reinforced concrete (RC) columns in internal blast environments are subjected to time-variant uplift forces coupled with lateral pressures leading to destabilisation and a critical loss of structural integrity. Research presented in this thesis provides an original understanding towards: (i) – the influence of transient uplift forces on the vulnerability of RC columns subject to lateral blast pressures and, (ii) – design and assessment of RC columns against the effect of time-variant coupled uplift and lateral blast pressures due to internal building detonations.
by Applied Element Method | Oct 12, 2015 | Other Publications, Thesis
Terrorist acts of the past two decades have resulted in major changes in approaches further military actions, while having consequences for all areas of social life. Many of terrorist attacks targeted or collaterally affected buildings, destroying them entirely or...
by Applied Element Method | Nov 21, 2014 | Other Publications, Thesis
As time advances structures in Portuguese built areas start to show high levels of degradation. This suggests that when rehabilitation is no longer a viable option these structures need to be demolished. The demolition of structures by the use of explosives is a...
by Applied Element Method | Nov 16, 2013 | Other Publications
Collapse of reinforced concrete structures under earthquakes is the main reason for life loss. Thus, avoiding structural collapse under strong earthquakes is the aim of seismic codes. The aim of the current study is to lead to an improved understanding of the seismic...
by Applied Element Method | Jul 20, 2010 | Other Publications, Thesis
Masonry is a construction material widely used around the world. Although its poor behavior under seismic loads has been extensively reported, masonry is used in earthquake prone areas mainly due to its relatively low cost. In order to improve the seismic performance...