1 |
Controlling cracking in prestressed concrete panelsForeman, James Michael 25 October 2010 (has links)
Precast, prestressed concrete panels (PCPs) are used in 85% of bridges in Texas. The goal of this thesis is to reduce collinear cracking (cracks propagating parallel to strands) in PCPs. One way to reduce collinear cracking would be to reduce the initial prestress force. In design, TxDOT conservatively assumes total prestress losses of 45 ksi. Based on eight panel specimens, instrumented and fabricated at two different precast plants in Texas, actual prestress losses were measured as at most 25 ksi. This difference (about 20 ksi) is consistent with a reduction in initial prestress force from 16.1 kips per strand to 14.4 kips per strand. Another way to reduce collinear cracking would be to provide additional transverse reinforcement in the end regions of the panels. By comparing crack spacings and crack widths in current and modified panel specimens, it was found that additional reinforcement consisting of one or two #3 bars placed transverse to strands at panel ends would effectively control collinear cracking in PCPs. / text
|
2 |
Controlling cracking in precast prestressed concrete panelsAzimov, Umid 29 October 2012 (has links)
Precast, prestressed concrete panels (PCPs) have been widely used in Texas as
stay-in-place formwork in bridge deck construction. Although PCPs are widely popular
and extensively used, Texas is experiencing problems with collinear cracks (cracks along
the strands) in panels. One reason for the formation of collinear cracks is thought to be
the required level of initial prestress. Currently, PCPs are designed assuming a 45-ksi,
lump-sum prestress loss. If the prestress losses are demonstrated to be lower than this
value, this could justify the use of a lower initial prestress, probably resulting in fewer
collinear cracks. For this purpose, 20 precast, prestressed panels were cast at two
different plants. Half of those 20 panels were fabricated with the current TxDOT-required
prestress of 16.1 kips per strand, and the other half were fabricated with a lower prestress
of 14.4 kips per strand based on initially observed prestress losses of 25 ksi or less.
Thirteen of those panels were instrumented with strain gages and monitored over their
life time. Observed losses stabilized after five months, and are found to be about 24.4 ksi.
Even with the reduced initial prestress, the remaining prestress in all panels exceeds the
value now assumed by TxDOT for design. / text
|
Page generated in 0.099 seconds