Strain energy capacity of reinforced and prestressed concrete beams

唐嘉鴻, Tang, Ka-hung, William.

January 1990

published_or_final_version / abstract / toc / Civil and Structural Engineering / Master / Master of Philosophy

Strains and stresses

Reinforced concrete.

Prestressed concrete beams.

Elastic versus plastic design for a reinforced concrete building

Fogg, Ka Chung, 1939-

January 1968

No description available.

Strength of materials.

Plasticity.

Reinforced concrete construction.

Ultimate strength design of R/C columns by numerical integration method

Yeung, David Ho-Fung, 1946-

January 1975

No description available.

Reinforced concrete -- Testing.

A finite element investigation of reinforced concrete beams /

Khouzam, Magda

January 1976

No description available.

Reinforced concrete.

Concrete beams.

Finite element method.

Behaviour of Shear Critical RC Beams with Corroded Longitudinal Steel Reinforcement

Azam, Rizwan

January 2010

This thesis discusses the results of an experimental program designed to investigate the effect of corrosion on the behaviour of shear critical reinforced concrete (RC) beams. The results of twenty RC beams (ten deep beams and ten slender beams) are described and discussed. The test variables included: corrosion level (2.5%, 5% and 7.5%) and existence of stirrups (beams without stirrups and beams with stirrups). The feasibility of repairing the corroded shear critical RC beams with CFRP laminates was also investigated. Sixteen specimens were corroded using an accelerated corrosion technique whereas four specimens acted as control un-corroded. Following the corrosion phase, all specimens were tested to failure under three point bending. Test results revealed that the corrosion does not adversely affect the behaviour of shear critical RC beams rather it improves their behaviour. It was found that corrosion changed the failure mode of the corroded beams. The control un-corroded deep beams (beams with and without stirrups) failed in shear-compression failure whereas corroded deep beams (beams with and without stirrups) failed by splitting of the compression strut. The control un-corroded slender beams (beams with and without stirrups) failed in diagonal tension failure whereas the corroded slender beams failed in anchorage failure (beams without stirrups) and flexural failure (beams with stirrups). The analysis of the results showed that corrosion changed the load transfer mechanism and the change of failure mode was associated with the mechanism. The load transfer mechanism changed from a combination of beam and arch action in the control un-corroded deep beams to pure arch action in the corroded deep beams. The load transfer mechanism changed from pure beam action in the control un-corroded slender beams to pure arch action in the corroded slender beams. Two strut and tie models are proposed: one for corroded deep beams and one for corroded slender beams. The ultimate loads of the corroded beams were predicted using these struts and tie models and compared with the experimental results. A very good correlation was found between predicted and experimental results.

Corrosion

Shear

Reinforced Concrete

Beams

Civil Engineering

Towards Simplified Tools for Analysis of Reinforced Concrete Structures Subjected to Impact and Impulsive Loading: A Preliminary Investigation

Trommels, Heather

17 July 2013

The analysis of reinforced concrete structures under blast and impact loads is an area of research that has become increasingly relevant in recent years. Complex hydrocodes are typically used for impact analyses, although single-degree-of-freedom methods have also been developed. There are a number of disadvantages associated with both methods, and the Canadian Nuclear Safety Commission (CNSC) is looking for a tool that can be used in conjunction with hydrocodes to analyze hard and soft missile impacts, with target damage ranging from flexural cracking to perforation. The VecTor programs, a suite of nonlinear finite element programs developed at the University of Toronto for the analysis of reinforced concrete structures, can potentially be developed into such tools. The analytical work done in this study serves to investigate the current impact and impulse loading analysis capabilities in VecTor2 and VecTor3, and to identify areas where work should be focused in the future.

reinforced concrete

blast and impact

numerical modeling

0543

Towards Simplified Tools for Analysis of Reinforced Concrete Structures Subjected to Impact and Impulsive Loading: A Preliminary Investigation

Trommels, Heather

17 July 2013

The analysis of reinforced concrete structures under blast and impact loads is an area of research that has become increasingly relevant in recent years. Complex hydrocodes are typically used for impact analyses, although single-degree-of-freedom methods have also been developed. There are a number of disadvantages associated with both methods, and the Canadian Nuclear Safety Commission (CNSC) is looking for a tool that can be used in conjunction with hydrocodes to analyze hard and soft missile impacts, with target damage ranging from flexural cracking to perforation. The VecTor programs, a suite of nonlinear finite element programs developed at the University of Toronto for the analysis of reinforced concrete structures, can potentially be developed into such tools. The analytical work done in this study serves to investigate the current impact and impulse loading analysis capabilities in VecTor2 and VecTor3, and to identify areas where work should be focused in the future.

reinforced concrete

blast and impact

numerical modeling

0543

Study of force-displacement relationships for the finite-element analysis of reinforced concrete

Houde, Jules

January 1974

No description available.

Reinforced concrete construction.

Finite element method.

Finite element analysis of reinforced concrete members.

Spokowski, Robert William.

January 1972

No description available.

Finite element method

Unsymmetrical bending in square reinforced concrete columns

McCarthy, John Arnold

08 1900

No description available.

Columns, Concrete

Reinforced concrete construction

Strains and stresses