Performance of reinforced concrete frames subjected to differential settlement

Lam, Kin-man, 林建文

January 1977

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Settlement of structures.

Reinforced concrete construction.

Nonlinear analysis of reinforced concrete structures

黃玉平, Huang, Yuping.

January 1993

published_or_final_version / Civil and Structural Engineering / Doctoral / Doctor of Philosophy

Reinforced concrete construction.

Nonlinear theories.

Compression hinges in reinforced concrete elements.

Obeid, Emile H.

January 1970

No description available.

Hinges

Design of a reinforced concrete gymnasium building composed of a semicircular arch and basement

Menteşe, Behlül Murat

05 1900

No description available.

Gymnasiums

Arches

Reinforced concrete construction

Finite element modelling of reinforced concrete structures

Hanna, Youssef G. (Youssef Ghaly)

January 1983

This thesis deals with nonlinear analysis of reinforced concrete structures under monotonically increasing loads. Post-cracking behaviour of planar reinforced concrete structures is studied to investigate the tension stiffening phenomenon and the post-cracking shear resistance. The feasibility of using the available bond stress-slip relationships to model the steel-concrete interface behaviour is examined by incorporating these relationships in a three dimensional axisymmetric finite element model and analyzing several reinforced concrete tension specimens. / A finite element model which uses the advanced endochronic stress-strain relationship and incorporates the results of the investigation on post-cracking behaviour and steel-concrete interface behaviour is formulated and used in the analysis of several reinforced concrete members. Analysis results are compared with the available experimental data and with the results obtained by other researchers. Excellent correlation was obtained between the computed values and the experimental results.

Reinforced concrete -- Cracking.

Shear (Mechanics)

Non-linear finite element analysis of reinforced concrete members

Tokes, Stephen I.

January 1977

No description available.

Reinforced concrete.

Finite element method.

A study of precast reinforced concrete skeleton for low-cost housing /

Sun, Minhui

January 1991

This thesis is a survey of the precast reinforced concrete skeleton system used in low-cost housing (SPCSS), which has widely spread to different areas of the world, but less studied. The thesis includes three major parts: (1) the development of SPCSS; (2) the design, performance feature of SPCSS; and (3) cases studies. / The development of SPCSS traces its origin as the structure of prefabricated houses for the housing shortage after the world war in Europe to its spread to developing countries for low-cost housing. / Design and performance study focuses on its features related to low-cost housing its special considerations and key points in design as a small component system, its acclaimed system performance features. / Case studies surveys 15 typical cases. Each case includes general background of the system, system design, comments following the design consideration and example of its application.

Precast concrete

Reinforced concrete

Building

Strengthening of reinforced concrete bridge deck panels with CFRP plates

Subramanian, Karthik

08 1900

No description available.

Bridges Floors

Reinforced concrete construction

Felix Candela : the structure and form of reinforced concrete shells

Starczewski, Jerzy Andrzej

12 1900

No description available.

Shells, Concrete

Reinforced concrete constructions

Probabilistic seismic design and assessment methodologies for the new generation of damage resistant structures

Robertson, Kathryn Louise

January 2005

Following the evolution of a damage avoidance design (DAD) frame system, with rocking beam-column joints, at the University of Canterbury, analytical studies are carried out to evaluate the performance of proposed structures, and verify the proposed design methodology. A probabilistic seismic risk assessment methodology is proposed, from which the expected annualised financial loss (EAL) of a structure can be calculated. EAL provides a consistent basis for comparison of DAD frame systems with state-of-practice ductile monolithic construction. Such comparison illustrates the superior performance of DAD frame systems. The proposed probabilistic seismic assessment methodology requires the response of the structure to be evaluated over a range of seismic intensities. This can be achieved by carrying out an incremental dynamic analysis, explicitly considering seismic randomness and uncertainty; or from a pushover analysis, and assuming an appropriate value of the dispersion. By combining this information with the seismic hazard, probabilistic response curves can be derived, which when combined with information about damage states for the particular structure, can be transformed into 'resilience curves'. Integration of information regarding the financial loss occurring due to each of the damage states, results in an estimate of EAL.

structural analysis

reinforced concrete structures