Browsing by Author "Rankoth, CK"

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item: Conference-Full-text
Behavior of reinforced concrete columns confined with CFRP (Carbon fibre reinforced polymer)
(2013-11-11) Rankoth, CK; Lewangamage, CS; Jayasinghe, MTR
In modern world the retrofitting of structures is promoted rather than demolishing and reconstruction of deteriorated structures.Attentionhas also given to increase the load carrying capacity of existing structures to increase the usage capacity or to change the intended usage. Retrofitting of structures using Carbon Fibre Reinforced Polymer materials is accepted as a sustainable and effective method comparatively to most of other well-known methods like steel plate bonding and external post tensioning. This paper presents anexperimental study carried out to understand the effectiveness of external CFRP confinement for square reinforced concrete columns and validation of ananalytical stress strain model,using experimental results. Four reinforced concrete columns, one control specimen without external confinement and three specimens with full external confinement were tested for compression to monitor the strength gain against axial loading. The results showed a considerable increase of the axial strength, about 50% and improved ductility, up to about 20% for the columns with external confinement. The analyticalstress stain modelpresented anacceptable agreement with obtained experimental results.
item: Thesis-Abstract
Behaviour of reinforced concrete columns confined with CFRP
(2015-02-08) Rankoth, CK; Lewangamage, CS
In worldwide reinforced concrete is the major construction material used for buildings and general structures. The requirement of strengthening of reinforced concrete structures may emerge not only due to timed degradation but also due to various reasons like construction faults, increased loads and changes in utilization purpose etc. Rehabilitation of reinforced concrete structures using Carbon Fiber Reinforced Polymer materials is recognized as a very effective retrofitting method in all over the world and provides advantages like durability, water proofing capability, ease of application due to less weight etc. CFRP materials can be used for strengthening of almost all the components of a RC structure like beams, slabs columns, beam column joints etc. Among these, strengthening of columns should be done with greater care because of failure of a major column may lead to failure of complete structure. In this research attention was given to study the behavior of short RC columns strengthened with CFRP composites. The current practice on strengthening reinforced concrete columns with external CFRP jacketing is to provide full confinement all over the column with less care on the required strength increment. As CFRP is a costly material providing partial confinement where necessary may be a viable option for cost reduction, rather than providing full confinement. The numbers of studies that have been carried out on partially confined rectangular columns are relatively less and only some available design guidelines provide design process for providing partial confinement using CFRP. It is obvious that the best way to identify the structural behavior is through a thorough experimental study. But behaviour CFRP confined columns depends on many parameters such as, failure stresses and strains of CFRP jacket, jacket thickness, number of CFRP layers, percentage of steel reinforcement etc. Studying of all those parameters experimentally is not a cost effective option as the structural form and load sharing will be specific for a single case. Finite element modeling is the best way to study a criterion that depends on this kind of large number of input variables. But still the finite element modeling of confined concrete column is in evolving stage and there is no globally accepted finite element model to predict the behavior of CFRP confined columns. The experimental and theoretical studies available in Sri Lanka regarding CFRP strengthening are next to zero. When design guidelines available for CFRP design are considered, there are various design codes for different countries like USA, Japan, Canada and Switzerland. Under this background designers and contractors in Sri Lanka are in a fuzz regarding which design guideline system will provide adequate safety factor while maintain the feasibility of the project Three major objectives were setup under this study. An experimental study was carried out to investigate the ductility and ultimate load carrying capacity increment of both reinforced and unreinforced square columns due to full confinement and to understand the behaviour of reinforced concrete columns with partial confinement. Second objective was to develop a finite element model using ANSYS software to simulate the behavior of confined concrete columns and study an analytical model capable of predicting stress strain behaviour and ultimate load carrying capacity of CFRP confined columns. Also a study was carried out about different available guidelines and attempt was made to identify the factor of safety provided for each design methods against obtained experimental results. Under experimental study total number of 17 columns with dimensions of 150  150  350 mm was tested. The test specimens consist of 6 plain concrete columns with 3 control specimens and 3 fully confined columns. 11 reinforced concrete columns with 3 control specimens, 3 columns with full confinement and 5 columns with partial confinement. Two wrapping patterns were used for partially confined columns, three specimens with two sets of 75mm width wraps at top and bottom of the column and two specimens with three 50mm wraps at top bottom and middle of the column. The volumetric ratio of CFRP for partially confined column specimens were kept constant to study the effect of wrapping pattern and jacket location for strength and ductility increment. All the columns were tested for axial compression. Under analytical study the model proposed by “Harajli” was studied. CFRP design specifications published by American Concrete Institute (ACI) and International Federation for structural concrete (fib), Switzerland were reviewed against the experimental results to identify the factor of safety against ultimate load carrying capacity estimation. The results of experimental study revealed that any kind of external confinement, full or partial with external CFRP jacketing is capable of increasing the load carrying capacity and ductility of a column to a considerable extent. The load carrying capacity increment for fully wrapped reinforced concrete columns were 100% while for plain concrete columns it was 47%. When load carrying capacity increment of partially confined columns considered, the specimens with two 75mm wraps showed a capacity increment of 59% while specimens with three 50mm wraps showed an increment of 83%. From above observation it was realized that for partially confined columns not only the volumetric ratio of the CFRP wrapping but also the wrapping pattern have a large influence on load carrying capacity. When ductility increment is considered it was observed that ductility increment is proportional to the strength increment, more the strength increment more the ductility increment. The finite element model based on Extended Drucker Prager plasticity model for concrete showed a good prediction of horizontal strain vs. vertical stress variation for fully confined models and could predict the failure load with an error of 1.8% hence the developed finite element model can be treated as an acceptable model. The analytical model proposed by Harajli showed a considerable variation of stress strain behaviour prediction but the ultimate failure load prediction according to above analytical model showed a good agreement with experimental failure loads with an error of 1.1% The estimated failure loads from ACI guidelines showed a factor of safety of 3.5 against experimental results while fib guidelines showed a factor of safety of 1.6 for fully confined reinforced concrete specimens. Only fib guidelines gives a method to estimate failure load of partially confined columns and showed a factor of safety of 2 for specimens with 75mm wrappings and 2.1 for specimens with 50mm wrappings. As the current practice is to provide full confinement for columns and two guidelines shows a considerable variation of factor of safety the designers are advised to select the suitable design system based on the risk level associated with a specific project. Keywords: CFRP, reinforced concrete columns, partial confinement, strength, ductility, finite element modeling
item: Conference-Abstract
Experimental study on reinforced concrete columns partially confined with carbon fiber reinforced polymer (CFRP)
Lewangamage, CS; Rankoth, CK; Sanjeewani, DMDN
The requirement of strengthening of reinforced concrete structures may emerge not only due to timed degradation but also due to various reasons like construction faults, increased loads and changes in utilization purpose etc. Rehabilitation of reinforced concrete structures using Carbon Fibre Reinforced Polymer materials is recognized as a very effective retrofitting method. The current practice on strengthening reinforced concrete columns with external CFRP jacketing is to provide full wrapping all over the column with less care on the required strength increment As CFRP is a costly material, providing partial wrapping may be a viable option for cost reduction rather than providing full confinement. An experimental study was carried out with 17 specimens to study the partial confinement effect. The test specimens consist of 6 plain concrete columns with 3 control specimens and 3 fully confined columns. 11 reinforced concrete columns with 3 control specimens, 3 columns with full confinement and 5 columns with partial confinement. Two wrapping patterns were used for partially confined columns with 75mm and 50mm laminate width, keeping the volumetric ratio of CFRP constant to study the effect of wrapping pattern and jacket location for strength and ductility increment. The results of experimental study revealed that the load carrying capacity increment for fully wrapped reinforced concrete columns were 100% while for plain concrete columns it was 47% and for partially confined columns, the specimens with two 75mm wraps showed a capacity increment of 59% while specimens with three 50mm wraps showed an increment of 83%. It was observed that, by only changing the jacket location 15% ultimate load carrying capacity increment can be obtained. When ductility increment is considered it was observed that ductility increment is proportional to the strength increment.
item: Conference-Abstract
Geotechnical investigations on earth dams in Sri Lanka unnichchai dam as a case study
(2011) De Silva, LIN; Sanjeewani, DMDN; Sampath, PHKS; Rankoth, CK
Sri Lanka is a country where there are large numbers of earth dams. Most of them are suffering partial failures due to excessive seepage, piping, excessive lateral deformations etc. But limited investigations have conducted on the performance of earth dams from the geotechnical point of view. This paper draws attention to some of the possible failure mechanisms based on steady state seepage, rapid draw down, and response due to an earthquake by analysing a set of computer based models of Unnichchai earth dam. The main objective is to evaluate the risk of failure for above mentioned mechanisms. The analysis revealed that the factor of safety against rapid draw down condition and in steady state conditionis lying closely for selected conditions and fairly high enough to obtain good performance. Behaviour of the dam under seismic loads urn analysed using computer models and manual methods and showed acceptable factor of safety against liquefaction. When overall result is considered it can be stated that the Unnichchai earth dam is performing well under normal conditions prevails in Sri Lanka.