Assessment of the seismic performance of inadequately detailed reinforced concrete columns : a thesis submitted in partial fulfilment of the requirements for the degree of Master of Engineering at the University of Canterbury /

Boys, Alistair.

January 2009

Thesis (M.E.)--University of Canterbury, 2009. / Typescript (photocopy). Includes bibliographical references. Also available via the World Wide Web.

Investigation of cracked reinforced concrete framed structures repaired with CFRP /

Chan, Yui Bun.

January 2002

Thesis (M. Phil.)--Hong Kong University of Science and Technology, 2002. / Includes bibliographical references (leaves 209-210). Also available in electronic version. Access restricted to campus users.

Shake table tests and analytical studies on the gravity load collapse of reinforced concrete frames /

Elwood, Kenneth. Moehle, Jack P.

January 2003

Also published as first author's dissertation. / "November 2003." Accompanied by 1 CD-ROM: Shake table test videos. Includes bibliographical references (p. 239).

Reinforced concrete column behavior under cyclic loading /

Xiong, Zhaohui.

January 2001

Thesis (Ph. D.)--University of Hong Kong, 2002. / Includes bibliographical references (leaves 226-236).

Nonlinear behaviour of reinforced concrete coupling beams /

Zhao, Zuozhou.

January 2001

Thesis (Ph. D.)--University of Hong Kong, 2002. / Includes bibliographical references (leaves 320-332).

Uni-axial behavior of normal-strength concrete filled steel tubular columns with external confinement

Luo, Lie, 罗冽

January 2012

This thesis proposes two forms of external confinement for concrete filled steel tubular (CFST) columns. The confinement efficiency is studied by examining the axial strength enhancement and ductility improvement of the CFST columns with external confinement. Due to the heavy demand of confining steel to restore the column ductility in seismic regions, it is more efficient to confine these columns by hollow steel tube to form CFST column. Compared with transverse reinforcing steel, steel tube provides a stronger and more uniform confining pressure to the concrete core, and reduces the steel congestion problem for better concrete placing quality. The CFST columns are therefore characterised by higher strength, ductility and large energy absorption before failure. However, a major shortcoming of CFST columns is the imperfect steelconcrete interface bonding occurred at the elastic stage as steel dilates more than concrete in compression. This adversely affects the confining effect and decreases the elastic modulus. To resolve the problem, it is proposed in this thesis to use external steel confinement in the forms of rings and ties to restrict the dilation of steel tube. For verification, a series of uni-axial compression test was performed on some CFST columns with external steel rings and ties. From the results, it was found that the external steel rings could improve both the axial strength and stiffness of the CFST columns significantly. However, the steel ties could not improve either the axial strength or elastic stiffness significantly. The confining efficiency was then investigated by comparing the strength of these confined-CFST columns with the reinforced concrete (RC) columns counterparts with the same concrete and steel volume. It is evident that the axial strength of CFST columns is much higher than the RC columns, which suggests that the application of CFST columns can utilise less construction materials and reduce the demolition waste. A theoretical model is also proposed for predicting the axial strength of ring-confined CFST columns. Comparison between the predicted results and the test results obtained by the author and other researchers shows that the proposed model gives good estimation for both unconfined and confined CFST columns. / published_or_final_version / Civil Engineering / Master / Master of Philosophy

Reinforced concrete construction.

Tubular steel structures.

Seismic performance of concrete columns reinforced with high strength steel

Sokoli, Drit

02 February 2015

Test results are presented from an experimental program carried at the University of Texas at Austin aimed at evaluating the seismic performance of concrete columns reinforced with high-strength steel. Comparisons are made between the performance of columns reinforced with conventional Grade 60 steel, and the higher Grade 80. The high-strength steel used in this study is the result of a recent push in the U.S. to produce higher grade reinforcing bars with relatively high ductility. All steel used satisfied the specifications of ASTM A706. Column specimens were tested under constant axial load and reverse cyclic lateral loading until collapse. Columns performed in a similar manner, indicating that current limits on the yield strength of reinforcing bars in seismic applications could be raised to include Grade 80 A706 bars. Conclusions are drawn with respect to the effects of higher strength reinforcement on, member cracking, drift capacity, plasticity spread, plastic hinge performance, and strain demands on reinforcing bars. / text

High-strength steel

Reinforced-concrete

Seismic

Rehabilitation of poorly detailed RC structures using CFRP materials

Kim, InSung

22 July 2015

In many reinforced concrete structures built in the 1970's and earlier, bottom beam reinforcement is not continuous and if a column support is lost due to terrorist attack or other unexpected action, the structure could be vulnerable to progressive collapse. The use of CFRP material may provide a solution for rehabilitating such structures. CFRP materials cannot develop full tensile capacity unless they are properly anchored to the reinforced concrete structure. The intent of this study is to find an effective method of anchoring CFRP material to a reinforced concrete beam so that the ultimate tensile strength of the CFRP is realized. In this study, ten reinforced concrete beams rehabilitated using different configurations of anchors were tested to assess the effectiveness of the anchors. Both CFRP anchors and CFRP U-wraps were investigated. The rehabilitated beams were loaded until failure of the CFRP material or anchor occurred. Different failure modes, strengths and deformation capacities of the rehabilitated beams were observed depending on the configurations of anchors. The maximum capacity was obtained using a combination of CFRP anchors and U-wraps. / text

Reinforced concrete

CFRP material

Concrete beams

Seismic performance of full-scale reinforced concrete columns

Bae, Sungjin

28 August 2008

Not available / text

Columns, Concrete--Testing

Non-destructive evaluation of gravity load carrying capacity and lateral load damage of reinforced concrete slab-column connections

Argudo, Jaime Fernando

28 August 2008

Not available / text

Columns, Concrete--Testing