An investigation of anchorage zone behavior in prestressed concrete containments.

Labonté, Laurent

January 1971

No description available.

An investigation of anchorage zone behavior in prestressed concrete containments.

Labonté, Laurent

January 1971

No description available.

The behaviour of reinforced concrete cantilever columns under lateral impact load

Loedolff, Matthys Johannes

12 1900

Microreproduction of original thesis. / Thesis (PhD)--Stellenbosch University, 1990. / Some digitised pages may appear illegible due to the condition of the original microfiche copy. / ENGLISH ABSTRACT: see item for full text / AFRIKAANSE OPSOMMING: sien item vir volteks.

Columns, Concrete -- Testing

Concrete construction -- Testing

An investigation into the behaviour of reactive powder concrete columns

Malik, Adnan Rauf, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2007

The research reported in this thesis was carried out in two phases to investigate the behaviour of reactive powder concrete (RPC) columns. In the first phase of this study, six steel fibre reinforced RPC columns of 150 mm square cross section were tested to failure under various loading eccentricities. The RPC mix contained 2 percent (by volume) of straight steel fibres with a concrete strength of about 150 MPa. The columns contained either 4 or 7 percent of longitudinal reinforcement but no tie reinforcement in the test region. All the columns failed in a controlled manner and no buckling of the longitudinal steel or cover spalling was observed, even well beyond the peak load. The tests revealed that stirrups can be significantly reduced for steel fibre reinforced RPC columns, which could lead to an increase in the speed of construction with an associated potential reduction in construction costs. In the second phase, 17 RPC columns were tested with 16 confined using carbon fibre reinforced polymer (CFRP). The concrete mix contained either no fibres or 2 percent (by volume) of straight steel fibres with concrete strength of approximately 160 MPa. The columns contained no conventional steel reinforcement. For the concentrically loaded specimens, failure occurred at or close to the peak loading and the CFRP increased the strength by 19 percent compared with the unconfined specimen. The tests showed that the formulae developed to predict the peak strength of concentrically loaded FRP confined conventional strength concrete columns, in general, overestimate the load carrying capacity of FRP confined RPC specimens. The CFRP was shown to be effective in controlling the failure for the eccentrically loaded specimens. There was no evidence, however, that the use of CFRP in the hoop direction significantly increased the strength of the columns. Three dimensional nonlinear FE analyses of the test specimens were undertaken using the program DIANA. The FE analyses showed a reasonable comparison with the experimental results for the specimens tested under eccentric loading.

Concrete construction -- Testing.

Reinforced concrete.

Application of accelerated and non-destructive tests to concrete construction in Hong Kong

Law, Kwok-sang, 羅國生

January 1977

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Concrete - Testing.

Concrete construction - Testing.

An investigation into the behaviour of reactive powder concrete columns

Malik, Adnan Rauf, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2007

The research reported in this thesis was carried out in two phases to investigate the behaviour of reactive powder concrete (RPC) columns. In the first phase of this study, six steel fibre reinforced RPC columns of 150 mm square cross section were tested to failure under various loading eccentricities. The RPC mix contained 2 percent (by volume) of straight steel fibres with a concrete strength of about 150 MPa. The columns contained either 4 or 7 percent of longitudinal reinforcement but no tie reinforcement in the test region. All the columns failed in a controlled manner and no buckling of the longitudinal steel or cover spalling was observed, even well beyond the peak load. The tests revealed that stirrups can be significantly reduced for steel fibre reinforced RPC columns, which could lead to an increase in the speed of construction with an associated potential reduction in construction costs. In the second phase, 17 RPC columns were tested with 16 confined using carbon fibre reinforced polymer (CFRP). The concrete mix contained either no fibres or 2 percent (by volume) of straight steel fibres with concrete strength of approximately 160 MPa. The columns contained no conventional steel reinforcement. For the concentrically loaded specimens, failure occurred at or close to the peak loading and the CFRP increased the strength by 19 percent compared with the unconfined specimen. The tests showed that the formulae developed to predict the peak strength of concentrically loaded FRP confined conventional strength concrete columns, in general, overestimate the load carrying capacity of FRP confined RPC specimens. The CFRP was shown to be effective in controlling the failure for the eccentrically loaded specimens. There was no evidence, however, that the use of CFRP in the hoop direction significantly increased the strength of the columns. Three dimensional nonlinear FE analyses of the test specimens were undertaken using the program DIANA. The FE analyses showed a reasonable comparison with the experimental results for the specimens tested under eccentric loading.

Concrete construction -- Testing.

Reinforced concrete.

Construction and testing of a reinforced concrete hyperbolic cooling tower model

Chien, Karl Chia-Chang

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Cooling towers

Turbogenerators--Cooling

Concrete construction--Testing

Finite element analysis of reinforced concrete members.

Spokowski, Robert William.

January 1972

No description available.

Finite element method

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