Your search keyword '"anchorages"' showing total 25 results

1. Pull‐out tests of handcrafted studs embedded in concrete with red mud synthetic coarse aggregate.

Author

Nzambi, Aaron and Oliveira, Dênio

Subjects

*REINFORCED concrete, *CRACKING of concrete, *STEEL bars, *COMPRESSIVE strength, *BAUXITE

Abstract

This paper presented the experimental results of the strength capacity of studs embedded centrally in concrete with red mud synthetic coarse aggregates, with the variation of the handcrafted headed stud thickness (3.17, 4.76, 6.35, and 7.9 mm) and no shank bond influence with concrete. The results regarding the compressive strength of concrete showed considerable strength gain with synthetic coarse aggregate, ranging from 27.00 to 43.50 MPa, while in concrete with natural coarse aggregate, the variation was 27.00 to 36.50 MPa. Also, it was observed that the cracking in the concrete matrix of the synthetic coarse aggregate occurred in the aggregate instead of the transition zone, as occurred with the natural coarse aggregate concrete. However, the solid morphological formation of synthetic coarse aggregate provided excellent chemical adhesion to the headed stud, providing a hardening failure behavior after reaching the yield strength value of the steel bar with higher displacements. This can enable the optimized consumption of materials in the dosage of low‐strength structural concrete and the anchoring application of studs with smaller‐headed thicknesses, up to 8% of head diameter, generating economy and sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

2. Influence of Polymer Fibre Reinforcement on Concrete Anchor Breakout Failure Capacity.

Author

Spyra, Julia, Mellios, Nikolaos, Borttscheller, Michael, and Spyridis, Panagiotis

Subjects

*REINFORCED concrete, *TUNNEL design & construction, *STRENGTH of materials, *REINFORCING bars, *BASES (Architecture)

Abstract

With the increasing use of fibre-reinforced concrete, e.g., in industrial floor and tunnel construction, the associated fastening technology in this material has increasingly become the focus of scientific attention in recent years. Over 25 years ago, design and assessment guidelines for anchoring systems in reinforced concrete were established, which have since evolved into comprehensive regulatory standards. However, these standards only address plain and rebar-reinforced concrete as anchoring bases, neglecting fibre-reinforced concrete. The design of anchorage systems in fibre-reinforced concrete has not yet been standardised. Recent studies and product certifications accounting for steel fibre reinforcement are now seeing their way to publication, supported by a fair amount of scientific research studies. This paper aims to elucidate the effects of polymer fibre reinforcement in this application through a systematic investigation. Experimental studies were conducted to evaluate the system's load-bearing behaviour failing with concrete breakouts under tensile loading. By incorporating the determined material properties of polymer fibre-reinforced concrete and their mathematical interpretation, alternative model proposals are presented to assess concrete breakout resistance. The addition of polymer fibres significantly improves the load-bearing capacity and ductility of concrete under tensile loads, transforming its quasi-brittle response into a more ductile behaviour. Although the fibres had a minor impact on overall material strength, their influence on the tensile capacity of the anchors reveal a 15–20% increase in load resistance and up to a doubling of the failure displacements. [ABSTRACT FROM AUTHOR]

Published

2024

3. A new fib Model Code proposal for a beam‐end type bond test.

Author

Metelli, Giovanni, Cairns, John, and Plizzari, Giovanni

Subjects

*RECYCLED concrete aggregates, *CONFORMANCE testing, *FIBER-reinforced concrete, *REINFORCING bars, *REINFORCED concrete

Abstract

A beam‐end test is proposed in this paper and in the new fib Model Code 2020 to determine the effects of concrete type, confinement effects, and casting position on the anchorage strength of reinforcing bars. Two bars are cast in each specimen (in the two opposite corners), one in a "good" casting position and the other in "poor" casting position. The proposed test aims to be an economical bond test capable to represent actual conditions of anchored bars in real design practice. The test is also intended to verify whether existing provisions for bond and anchorage in the fib Model Code are suitable in nonconventional concrete. The validity of the proposed beam end type bond test is assessed by the results of more 60 tests on rebars having anchorage length of about 20 times the bar diameter in plain concrete, in fiber reinforced concrete, and in recycled aggregate concrete. Experimental results provide information both on the "top cast effect" in three types of concrete and on the effectiveness of fib Model Code provisions for anchorage when nonconventional concrete is used. [ABSTRACT FROM AUTHOR]

Published

2023

4. Prestressing concrete members with fibre‐reinforced polymer reinforcement: State of research.

Author

Zdanowicz, Katarzyna, Marx, Steffen, and Kotynia, Renata

Subjects

*PRESTRESSED concrete beams, *STRUCTURAL engineering, *PRESTRESSED construction, *POLYMERS, *REINFORCED concrete, *BOND strengths

Abstract

The technology of prestressing concrete structures has been a well‐established field in structural engineering since the last century. Nowadays, new materials developed for reinforcing concrete structures, such as fibre‐reinforced polymers (FRPs), open further possibilities for engineers. FRP tendons are more and more often investigated as an efficient and suitable material for prestressing, and there are already some field applications of this technology. This paper aims to describe the current state of knowledge in the field of prestressing with FRP tendons, with regard to available materials, developed anchorages and undertaken investigations. Researches conducted in areas such as bond strength, ductility, durability, long‐term behavior, and high‐temperature resistance are described and summarized. Our goal was to provide a summary of what has been achieved so far in the research field of prestressing concrete structures with FRP tendons; however, field applications and standardization issues are not part of this review. [ABSTRACT FROM AUTHOR]

Published

2019

5. Experimental study on staggered lapped bars in fiber reinforced concrete beams.

Author

Metelli, G., Marchina, E., and Plizzari, G.A.

Subjects

*FIBROUS composites, *REINFORCED concrete, *REINFORCING bars, *JOINTS (Engineering), *CRACKS in reinforced concrete

Abstract

The paper presents experimental results on lap splices in Fiber Reinforced Concrete (FRC). Several full-scale beams reinforced with rebars of different diameters were tested with all or part of the longitudinal reinforcement lap spliced at mid-span. A traditional volume fraction of hooked steel fibers (equal to 0.5%) was adopted for FRC. Experimental results show that the toughness of FRC can enhance the behavior of the weak joint with only part of the rebars lapped at the section. The capability of FRC to control the flexural and splitting crack opening and propagation can increase the strength of staggered lapped splices, thus allowing a reduction of lap length. [ABSTRACT FROM AUTHOR]

Published

2017

6. Opportunities and risks arising from the properties of FRP materials used for structural strengthening.

Author

Derkowski, Wit

Subjects

FIBER-reinforced plastics, STRUCTURAL engineering, STRENGTH of materials, COMPOSITE materials, CIVIL engineering, REINFORCED concrete

Abstract

Modern composite materials, made on the basis of non-metallic continuous fibers are increasingly used in civil engineering, in particular to strengthen building structures. In strengthening of RC structures the utilization of externally bonded FRP composites is only up to 35% because of the pilling-off failure mechanism. This problem can be solved by the use of pretensioned composite laminates. Due to more complex behavior, the strengthening of structures using prestressing technology needs a careful design approach and a full understanding of the behavior of both the materials and elements. The advantages and risks of the presented technology, which may determinate the success of the entire project, are highlighted in the article. [ABSTRACT FROM AUTHOR]

Published

2015

7. Wire Breakage Detection Using Relative Strain Variation in Unbonded Posttensioning Anchors.

Author

Abdullah, A. B. M., Rice, Jennifer A., and Hamilton, H. R.

Subjects

TENDONS (Prestressed concrete), BRIDGE design & construction, GROUT (Mortar), REINFORCED concrete, CONCRETE construction

Abstract

Recent problems with grouted posttensioning tendons in U.S. bridges have led to interest in tendons that are not grouted, but rather filled with a pliable corrosion protection system such as grease or wax. The use of a flexible filler material in place of cementitious grout results in an unbonded tendon, which not only affects the structural behavior but also enables the application of new methods for improved monitoring and maintenance. This paper outlines a novel continuous monitoring approach that aims to detect wire breakage in unbonded tendons based on relative strain variation in the anchor head (or wedge plate). The feasibility of the method is investigated using a finite-element model calibrated with experimental data from a seven-strand anchor head. The model is subsequently extended to a 19-strand anchor head to assess the method's performance on detection, localization, and quantification of tendon damage. The numerical results confirm the correlation between wire breakage and relative strain variation among the monitoring points and illustrate the method's effectiveness in determining the location and severity of damage. [ABSTRACT FROM AUTHOR]

Published

2015

8. Numerical and Experimental Validation of FRP Patch Anchors Used to Improve the Performance of FRP Laminates Bonded to Concrete.

Author

Kalfat, R. and Al-Mahaidi, R.

Subjects

FIBER-reinforced plastics, FINITE element method, ANCHORAGE (Structural engineering), LAMINATED materials, STRUCTURAL failures, REINFORCED concrete

Abstract

Numerical simulations using the nonlinear finite-element method (FEM) have been successfully used to predict the full nonlinear response of reinforced concrete (RC) members strengthened with fiber-reinforced polymers (FRPs). Calibrated numerical models have the potential to reduce the number of experimental tests through the use of parametric studies that can provide further data on the influence of key parameters. A relatively new area of research is the use of FRP anchorage systems to improve the efficiency of FRP-strengthened members by preventing the various modes of deboning failure. Although FRP anchorage systems have shown exceptional potential for widespread use, further experimental and numerical data are required before establishing theoretical models and design guidelines. The focus of the present work is to develop and validate an FE modeling approach to expand the available data on FRP-to-concrete joints anchored using unidirectional and bidirectional fiber patch anchorages. The critical bond properties among multiple layers of FRP sheet, laminate, and concrete are simulated using interface elements and a calibrated interface bond law. The proposed modeling approach and calibration techniques have resulted in replication of prepeak and postpeak response with a reasonable level of accuracy. Numerical parametric studies have also been conducted to expand the experimental data to encompass variations in concrete strength and the overall effect on anchorage effectiveness. [ABSTRACT FROM AUTHOR]

Published

2014

9. Seismic Design Criteria for Reinforcement Anchorages at Interior RC Beam-Column Joints.

Author

Brooke, Nicholas J. and Ingham, Jason M.

Subjects

*GIRDERS, *EARTHQUAKE resistant design, *REINFORCED concrete, *REINFORCING bars, *STRENGTH of materials

Abstract

The requirements for the anchorage of beam longitudinal reinforcement at interior beam-column joints in earthquake-resistant RC moment-resisting frames are reevaluated. An introductory comparison of international design criteria shows that a broad disparity currently exists between these requirements. The suitability of existing criteria was assessed by assembling a database of more than 90 interior beam-column joint tests and comparing the assessed test performance with the performance that was predicted by each design criterion. This comparison showed that none of the existing design criteria were adequately able to predict experimental performance. To improve the design of earthquake-resistant RC frame structures, an improved design criterion was developed by parametrically determining the influence of important variables on anchorage performance. [ABSTRACT FROM AUTHOR]

Published

2013

10. Cyclic Response of Reinforced Concrete Walls with Different Anchorage Details: Experimental Investigation.

Author

Aaleti, Sriram, Brueggen, Beth L., Johnson, Benton, French, Catherine E., and Sritharan, Sri

Subjects

*CYCLIC loads, *REINFORCED concrete construction, *ANCHORAGE (Structural engineering), *LATERAL loads, *EARTHQUAKE resistant design, *SHEAR (Mechanics)

Abstract

Previous tests of structural walls have routinely used continuous reinforcement extending from the foundation to the top of the specimen. This detailing is consistently different from that of multistory walls in the field, which incorporate splices in the wall longitudinal reinforcement above the wall-foundation interface. As a result, the performance of walls incorporating continuous reinforcement in the laboratory may not be representative of walls in the field that use lap splices or mechanical couplers near the wall base. This paper investigates lateral load behavior of three nominally identical structural walls with continuous reinforcement, lap splices, and mechanical couplers in the plastic hinge region, and quantifies the differences in their responses using force-displacement response, lateral deformation components, and energy dissipation estimated using equivalent viscous damping. [ABSTRACT FROM AUTHOR]

Published

2013

11. Strengthening and Repair of Reinforced Concrete Beams Using External Steel Plates.

Author

Aykac, Sabahattin, Kalkan, Ilker, Aykac, Bengi, Karahan, Servet, and Kayar, Sinan

Subjects

*REINFORCED concrete, *DUCTILITY, *CONCRETE beam fracture, *FLEXURAL strength, *IRON & steel plates, *THERMAL properties

Abstract

The study presents the results of an experimental program aimed at investigating the flexural behavior of externally plated RC beams. A total of 13 full-scale rectangular RC beams were tested. The effects on the behavior of the plate thickness, the anchorage of the plate to the beam through anchor bolts or side plates (collars), and the use of perforated plates instead of solid ones were investigated. The experiments indicated that the beam ductility increases as the plate thickness decreases, and the anchorage of the plate to the beam through bolts or collars proves to be an efficient method for preventing the premature plate peeling failure and achieving sufficient ductility in beams strengthened with thick solid plates. Anchor bolts had adverse effects on the ductilities of the beams with thin plates, and the use of perforated steel plates was found to be an efficient method for increasing the ductility of a strengthened beam. The beams repaired with perforated plates anchored to the beam with collars had load-carrying capacities close to those of the undamaged beams. [ABSTRACT FROM AUTHOR]

Published

2013

12. Severely Corroded RC with Cover Cracking.

Author

Coronelli, Dario, Hanjari, Kamyab Zandi, and Lundgren, Karin

Subjects

*DELAMINATION of composite materials, *FINITE element method, *CORROSION & anti-corrosives, *CONCRETE, *COMPOSITE construction

Abstract

It is not uncommon that cover cracking, spalling, and delamination occur in many corroding RC structures. Previous research has mainly been concerned with corrosion levels leading to cover cracking along the main reinforcement, whereas corrosion of stirrups is often overlooked. Corrosion phenomena, including stirrup corrosion, were studied in an experimental investigation presented in this paper. High levels of corrosion were reached, up to 20% of the main bars and 34% of the stirrups legs. The occurrence of crack initiation, propagation, and cover delamination were examined. The specimens had the shape of a beam end and were corroded with an accelerated method; an imposed current was used, taking care to keep the current density as low as practically possible for the duration of the laboratory testing. The effects of this process were compared with those of natural corrosion using models from the literature. The location of the bar, middle and corner placement, the amount of transverse reinforcement, and the corrosion level of longitudinal reinforcement and of transverse reinforcement were studied. The results concerning the concrete cracking in the experimental campaign are presented. The crack patterns and widths were analyzed, showing differences between specimens with or without stirrups and whether stirrups were corroding. Finally, the effect of corrosion was simulated as the expansion of corrosion products in a finite-element (FE) model, and the results, mainly the crack pattern and width, were compared with the test results. The conclusions addressed the importance of taking into consideration both high corrosion levels and corrosion of stirrups for the assessment of deteriorated structures. [ABSTRACT FROM AUTHOR]

Published

2013

13. Evaluation of Fatigue Bond Strength of Anchorage Zones with a Mechanical Model.

Author

Zanuy, Carlos, Albajar, Luis, and de la Fuente, Pablo

Subjects

*REINFORCED concrete, *CONCRETE fatigue, *STAINLESS steel, *CURVES, *CONSTRUCTION materials

Abstract

The paper describes a numerical model to analyze the fatigue behavior of RC anchorage zones. The model takes into account the cycle-dependent bond-slip behavior at the steel-concrete interface and is able to reproduce the experimental increase of the relative slip developed with number of load cycles, as well as the process of redistribution of stresses that takes place over the anchorage length as a result of fatigue damage. The results compare satisfactorily with existing experimental results. The model has been used to derive curves to provide the fatigue strength of anchorage zones under different confinement conditions and various values of the anchorage length-to-diameter ratio and the steel diameter. The results indicate that the confinement degree plays a significant role in the fatigue bond strength: no fatigue problems are found for the well-confined concrete condition, but significantly short fatigue strength is obtained under the moderately confined and unconfined concrete conditions. [ABSTRACT FROM AUTHOR]

Published

2013

14. Retrofitting of shear damaged RC beams using CFRP strips.

Author

ALTIN, Sinan, ANIL, Özgür, TOPTAŞ, Tolga, and KARA, M. Emin

Subjects

RETROFITTING, REINFORCED concrete, GIRDERS, SHEARS (Machine tools), CARBON fiber-reinforced plastics

Abstract

The results of an experimental investigation are presented in this paper for retrofitting of shear damaged reinforced concrete beams by using U shaped CFRP strips. The experimental program is consisted of seven shear deficient T cross sectioned 1/2 scale simply supported beam specimens. One beam was used as reference specimen, and the remaining six specimens were tested in two stages. At the first stage, specimens were shear damaged severely, and then were retrofitted by using CFRP strips with or without fan type anchorages. Finally, retrofitted beams were tested up to failure. Three different CFRP strip spacing were used such as 125 mm, 150 mm, and 200 mm. The effect of anchorages on shear strength and behavior of the retrofitted specimens is investigated. CFRP strips without anchorages improved the shear strength, but no flexural failure mode was observed. Specimens showed brittle shear failure due to peeling of CFRP strip from RC beam surface. Shear damaged specimens retrofitted with anchoraged CFRP strips showed improved shear strength and ductile flexural failure. Maximum strains at anchoraged strips were approximately 68% larger than that of strips without anchorages. [ABSTRACT FROM AUTHOR]

Published

2011

15. Evaluation of Bond Strength in Concrete Elements Externally Reinforced with CFRP Sheets and Anchoring Devices.

Author

Ceroni, Francesca and Pecce, Marisa

Subjects

CONCRETE, REINFORCED concrete, FIBER-reinforced plastics, ADHESIVES, COLUMNS

Abstract

Use of anchoring devices can be useful to avoid or delay end debonding failure in reinforced concrete elements externally bonded with fiber-reinforced plastic materials. Many theoretical formulations are now available to predict bond strength, but no design provisions have been suggested to take into account the beneficial effect of anchorage devices. This paper presents the results of experimental bond tests performed on concrete blocks externally strengthened with carbon fiber sheets. The prime focus is the evaluation of effect given by three different types of anchorage systems upon increasing debonding load. A simple model is introduced to predict the influence of the examined anchorage systems on the debonding load. Its accuracy is confirmed by comparisons with the experimental results. [ABSTRACT FROM AUTHOR]

Published

2010

16. Effect of FRP Confinement on Bond Strength of Hooked Bars: Normal-Strength Concrete Structures.

Author

Hamad, Bilal S. and Ibrahim, Faten G.

Subjects

CONCRETE beams, CARBON fibers, REINFORCED concrete, TENSILE architecture

Abstract

To assess the viability of the external confinement of normal-strength concrete beam–column joints with carbon fiber-reinforced polymer (CFRP) sheets in increasing the bond strength of hooked bars anchored in the joints, 12 hooked bar specimens were tested. The variables were beam tensile bar size, anchorage length, mode of confinement of the beam hooked bars in the beam–column joint (whether the hooked bars were anchored within or outside the column reinforcement cage, denoted as “confined specimens” or “unconfined specimens”), and presence or absence of FRP wraps. The specimen simulated the rigid connection of a cantilever beam to a column. The tensile beam reinforcement consisted of two bars anchored in the base column using hooked-bar anchorages. Test results indicated that FRP sheets were effective in increasing the anchorage capacity and the ductility of the load–deflection history for both unconfined and confined specimens. However, FRP sheets had a more significant influence on unconfined specimens than companion confined specimens. As compared with unconfined specimens without FRP wrapping, unconfined FRP specimens had an average of a 23% increase in bond strength, confined non-FRP specimens had an average 30% increase in bond strength, and confined FRP specimens had an increase of 54%. [ABSTRACT FROM AUTHOR]

Published

2009

17. Flexural Strengthening of RC Beams with Prestressed CFRP Sheets: Development of Nonmetallic Anchor Systems.

Author

Kim, Yail J., Wight, R. Gordon, and Green, Mark F.

Subjects

GIRDERS, POLYMERS, CONCRETE products, CONSTRUCTION materials, REINFORCED concrete, TENDONS (Prestressed concrete)

Abstract

This paper presents a novel anchoring technique for strengthening reinforced concrete beams with prestressed carbon fiber- reinforced polymer (CFRP) sheets. Permanent steel anchors are commonly used for the application of prestressed CFRP sheets. The steel anchors are, however, susceptible to corrosion and may not blend into the aesthetics of the original structure. As a result, it may be preferable to remove the steel anchors after transferring the required prestress to the structure with minimal losses of sustained prestress. A technique for replacing the steel anchors with nonmetallic anchors is investigated and reported herein. Nine doubly reinforced concrete beams are tested with various types of nonmetallic anchor systems such as nonanchored U-wraps, mechanically anchored U-wraps, and CFRP sheet-anchored U-wraps. The developed nonmetallic anchorages successfully transfer the sustained prestress in the CFRP sheets with insignificant prestress losses. A closed-form solution for the transfer of prestress is developed and compared to the experimental results. [ABSTRACT FROM AUTHOR]

Published

2008

18. Flexural Strengthening of RC Beams with Prestressed CFRP Sheets: Using Nonmetallic Anchor Systems.

Author

Kim, Yail J., Wight, R. Gordon, and Green, Mark F.

Subjects

GIRDERS, CONCRETE, REINFORCED concrete, CONSTRUCTION materials, POLYMERS, TENDONS (Prestressed concrete)

Abstract

This paper presents the flexural behavior of reinforced concrete beams strengthened with prestressed carbon fiber-reinforced polymer (CFRP) sheets using nonmetallic anchor systems. The developed nonmetallic anchor systems replace the permanent steel anchorage. Nine doubly reinforced concrete beams are tested with various types of nonmetallic anchor systems such as nonanchored U-wraps, mechanically anchored U-wraps, and CFRP sheet-anchored U-wraps. The flexural behavior of the tested beams, including detailed failure modes of each nonmetallic anchor system, is investigated. The study shows that the developed nonmetallic anchors are more effective in resisting peeling-off cracks compared to the permanent steel anchors and the beams strengthened with the nonmetallic anchors provide comparable load-carrying capacity with respect to the steel anchored control beam. [ABSTRACT FROM AUTHOR]

Published

2008

19. Bond Behavior of CFRP Bars in Simply Supported Reinforced Concrete Beam with Hanging Region.

Author

Thamrin, Rendy and Kaku, Tetsuzo

Subjects

CONCRETE beams, GIRDERS, REINFORCED concrete, CONSTRUCTION materials, CONCRETE

Abstract

This paper presents an experimental study on the bond behavior of longitudinal reinforcements in the hanging region (i.e., the part of the beam outside the support) of a simply supported reinforced concrete beam. Twenty-three reinforced concrete beams were tested to failure. Carbon fiber-reinforced polymer (CFRP) bars were used as longitudinal reinforcements in place of ordinary steel bars. The main test variables were (1) stirrup ratio in the hanging region; (2) stirrup ratio in the shear span; and (3) bond length in the hanging region. The test results showed that, even though the beam had a sufficient stirrup ratio in the shear span, bond-splitting failure occurred in the shear span of the beam with insufficient bond length in the hanging region. Based on the test results, the provision of ACI and AIJ codes on the additional anchorage length in the hanging region was evaluated, and a model for predicting tension force at the support was presented. [ABSTRACT FROM AUTHOR]

Published

2007

20. Possibilities of Increasing Effectiveness of RC Structure Strengthening with FRP Materials.

Author

Derkowski, Wit, Walczak, Rafał, Ceroni, Francesca, Milani, Gabriele, Rahier, Hubert, and Hu, Xiaozhi

Subjects

*NONMETALLIC materials, *COMPOSITE materials, *LAMINATED materials, *PRESTRESSED construction, *REINFORCED concrete, *PRESTRESSED concrete beams

Abstract

Modern composite materials based on non-metallic continuous fibres are increasingly used in civil engineering to strengthen building structures. In the strengthening of reinforced concrete (RC) structures, the utilisation of externally bonded fibre-reinforced polymer (FRP) composites is only up to 35% because of the pilling-off failure mechanism. This problem can be solved using pre-tensioned composite laminates. Due to more complex behaviour, the strengthening of structures by means of prestressing technology needs a careful design approach and a full understanding of the behaviour of both the materials and elements. The advantages and risks of the presented technology, which may determine the success of the entire project, will be highlighted in the paper. The possibility of using a flexible adhesive layer in carbon fibre reinforced polymer (CFRP) strengthening applications for flexural strengthening of RC elements, as an innovative solution in civil engineering, will also be presented. Parallel introduction of the flexible adhesive layer (made of polyurethane masses) and a traditional epoxy adhesive layer in one strengthening system was investigated in the laboratory tests. This solution was used for the repair and protection of a previously damaged RC beam against brittle failure. [ABSTRACT FROM AUTHOR]

Published

2021

21. Bond and anchorage of embedded reinforcement: Background to the fib Model Code for Concrete Structures 2010

Author

Balázs, G., Cairns, J., Eligehausen, R., Lettow, S., Metelli, Giovanni, Pantazopoulou, S., and Plizzari, Giovanni

Subjects

anchorages, Bond, reinforced concrete

Published

2014

22. Strengthening and Repair of Reinforced Concrete Beams Using External Steel Plates

Author

Bengi Aykaç, Sinan Kayar, Ilker Kalkan, Servet Karahan, Sabahattin Aykaç, and Kırıkkale Üniversitesi

Subjects

Materials science, Concrete beams, business.industry, Mechanical Engineering, Rehabilitation, Building and Construction, Structural engineering, Reinforced concrete, Flexural strength, Steel plates, Anchorages, Mechanics of Materials, General Materials Science, Ductility, business, Beam (structure), Civil and Structural Engineering

Abstract

WOS: 000318881600007 The study presents the results of an experimental program aimed at investigating the flexural behavior of externally plated RC beams. A total of 13 full-scale rectangular RC beams were tested. The effects on the behavior of the plate thickness, the anchorage of the plate to the beam through anchor bolts or side plates (collars), and the use of perforated plates instead of solid ones were investigated. The experiments indicated that the beam ductility increases as the plate thickness decreases, and the anchorage of the plate to the beam through bolts or collars proves to be an efficient method for preventing the premature plate peeling failure and achieving sufficient ductility in beams strengthened with thick solid plates. Anchor bolts had adverse effects on the ductilities of the beams with thin plates, and the use of perforated steel plates was found to be an efficient method for increasing the ductility of a strengthened beam. The beams repaired with perforated plates anchored to the beam with collars had load-carrying capacities close to those of the undamaged beams. (C) 2013 American Society of Civil Engineers.

Published

2013

23. Betonarme taşıyıcı elemanların konstüktif esasları, yüksek betonarme yapıların tasarımı ve enine donatılarda kancaların bilgisayar programında modellenmesi

Author

Tabak, Çağlar, Gedikli, Abdullah, and İnşaat Mühendisliği Ana Bilim Dalı

Subjects

Reinforced concrete, ANSYS, Anchorages, Reinforced concrete buildings, Reinforcement ratio, Reinforced concrete wall, Reinforced concrete beam, Reinforced concrete structures, İnşaat Mühendisliği, Reinforced concrete supporting elements, Civil Engineering, Reinforced concrete shear walls

Abstract

Günümüzde nüfusun ve kırsal bölgelerden şehirlere göçün hızla artması insanları yüksek katlı, büyük açıklıklı yapılar yapmaya zorlamıştır. Ayrıca, teknolojinin gelişmesi insanlara özel yapılar yapma imkanı da sunmuştur.Tezimizde, nüfusun hızla artmasıyla yapılmasına gereksinim duyulan özel yapılarla birlikte bu yapıların yapımı esnasında meydana gelen olumsuz durumlardan bahsedilmektedir. Konuyu daha iyi irdelemek için yüksek yapılarda en uygun taşıyıcı sistemin perde duvarlı sistem olduğunu, perde duvarlı sistemlerin dizayn edilirken ne tür esaslara dikkat edilmesi gerektiği üzerinde durulmuştur.Betonarme perde duvarların deprem kuvvetlerine karşı daha rijit bir davranış sergilediği yapılan deneyler, teorik hesaplar ve deneyimlerle görülmüştür. Bu yüzden tezimizin büyük bir kısmında perdeler üzerinde durulmuştur.Yüksek katlı yapılar yapılırken eskiden beri büyük problemlerle karşılaşılmış ve hala da karşılaşılmaktadır. Ülkemizde de giderek yüksek katlı yapılar yapma eğilimi artmakta ve çeşitli problemlerle karşılaşılmaktadır. Bununla birlikte yüksek katlı yapıların yapımında göz ardı edilen bir çok detay olduğunu söylemek hiç de yanlış olmaz. Bu sorunları aşağıdaki gibi sıralayacak olursak;-Yüksek katlı yapılar yapılırken güvenlik önlemleri tam olarak alınmaması ve şantiyelerde iş güvenliği uzmanları çalıştırılmaması.-İşçilerin iş güvenliği konusunda bilgisiz kalması ve çok durumda iş güvenliğinin göz ardı edilmesi.-Yüksek katlı yapılarda hava şartlarından dolayı beton dökülmesinin zorlaşması ve betona kimyasallar katılarak yüksek katlara beton pompalanırken akışkanlığın tam olarak sağlanmasının amaçlanması.-Projelendirme yapılırken, proje mühendisinin şantiye tecrübesi olmamasından dolayı şantiye de çıkan zorluklar.-Taşıyıcı sistem yerleştirilmesinde rijitlik ve deprem etkilerinin göz ardı edilmesi.-Yüksek katlardan dolayı gelen düşey yüklerin artması ve bazı birleşim bölgelerinde donatı yoğunluğu artması ve bu durumda betonun yerleştirilmesinin zorlaşması.-Donatı yoğunluğundan dolayı, donatıda ki bazı konstrüktif esaslara uyulmaması.-Şantiye mühendislerinin ve işçilerin donatıdaki konstrüktif esasları görmezlikten gelmesi ve beton dökümünden sonra bu kusurun tamamen gözden kaybolması.-Özellikle enine donatıların uygulanmasında sıkıntılar yaşanması.-Rüzgar ve yangın hesaplarının yetersiz kalması ve bunun için hala ülkemizde genel bir yönetmeliğin bulunmaması.-Betonarme perdelerin yanı sıra istinat duvarlarının da donatı düzenlerinde yetersiz kalınması ve bazı istinat duvarlarına su drenlerinin konulmaması.Tüm yukarıda saydığımız olumsuzluklara değindiğimiz bu tezde ilk olarak perde ve perde çerçeveli sistemlerin davranışlarını inceledik. Daha sonra enine ve boyuna donatıların kancasız yapıldığı bazı durumların ne tür sakıncalarının olduğunu daha iyi anlatabilmek, donatı ve beton arasındaki aderansın, kenetlenmenin önemi, donatıların eklenmesi ve eklenme çeşitlerinin nasıl yapılabileceği hakkında bilgi verip betonarme taşıyıcı elemanlarda donatı yerleştirilmesi üzerinde durduk.Tezimizin son kısmında ise, yüksek yapıların şantiyelerini dolaşarak buralarda enine donatıların özellikle perde duvalarda tevzi donatıların kancalarının yapılmadığını ve düz olarak bağlandığını gözlemledik. Bu durumun ne kadar sağlıksız bir sonuç doğurabileceğini LVDT hassas ölçerler kullanılarak yapılan deneylerden de yararlanarak teorik olarak bilgisayar programlarında da olumlu sonuç elde edip edemeyeceğimizi araştırdık.Ayrıca ülkemizde fazla önem verilmeyen ve statik hesaplarda genelde göz ardı edilen yangın hesabı üzerinde durduk. Avrupa ülkeleri, yangın çıkma olasılığının deprem olma olasılığından daha fazla olduğunu ve yangında can ve mal kaybının da çok fazla olacağını öngörmüşler ve Eurocod'da ve her ülke kendi yönetmeliğinde yangın için özel hesap yöntemleri geliştirmişlerdir.Eğer yangın için yapı içerisinde gerekli önlemler alınmamışsa, yangın çıktığı anda can ve mal kayıpları çok büyük olabilmektedir. Bu yüzden tezimizde statik hesaplarda yangın hesabının da ön planda tutulması gerektiğini ve her bir yapı malzemesinin, evlerde, otellerde, okullarda, hastahanelerde v.s. kullanılan eşyaların yangın sınıfının bilinmesi ve yangına dayanıksız yapı malzemelerinin yapılarda kullanılmaması gerektiği üzerinde durduk. Statik olarak nasıl yangın hesabı yapabilceğimizi ve donatının yangından korunması için ortalama paspaylarının nasıl verilmesi gerektiği ile ilgili bir örnekle açıklamaya çalıştık.Yüksek katlı betonarme yapılarda, özellikle taşıyıcı elemanların bazı bölgelerde donatı yığılması olabilmekte ve bu durum olumsuz sonuçlar doğurmaktadır. İşçilerin işi daha kolay yapabilmek adına enine donatılarda kanca yapmaktan kaçındıkları, mütahitlerin ise işi hızlı bitirmek amacıyla bu duruma göz yumabildikleri görülmüştür. Fakat bu durum bazen de tam tersi durum doğurmuş kanca yapmanın imkansız olduğu durumlarda insanlara alternatif seçenekler bulmaya zorlamıştır.Yukarıda sözünü ettiğimiz durumu teorik olarak inceleyebilmek için iki ayrı programda bu sorunun nasıl modelelenebileceğini anlatmaya çalıştık.Birincisi Alman yazılımı olan Rstab (Dlubal) programı, ikincisi ise Ansys Workbench programıdır.İlk olarak Rstab programında iki ayrı örnek kullanılmış ve bir basit kiriş modellenmiştir. İki örnek kiriş arasındaki tek fark ise etriyelerin birinci kirişte kancalı, ikinci kirişte ise kancasız yapılmasıdır. Bilgisayar programında yazılımcılar kanca ile donatı arasındaki bağı kendi yazılımında tanımlamış ve donatı ile beton arasında aderansı tam sağlamaya çalışmışlardır. Bizde programın bu özelliğinden yararlanarak kiriş örneklerimizi modelleyip iki örnek arasındaki farkları karşılaştırdık ve çözüm önerileri getirdik.İkinci olarak modellemeyi anlattığımız program ise Ansys Workbench programıdır. Bu program X-Steel ve Solidworks programları ile birlikte kullanılmıştır. X-Steel programında modellediğimiz ankastre perdeyi, Solidworks programına oradan da Ansys Workbench programına aktarıp çözümleme yapmaya çalışılmıştır. Buradaki amacımız programda kancaları tanımlayıp kancalı ve kancasız yaptığımız enine donatıların sonuçlarını incelemek olacaktır.Ansys Workbench programına aktardığımız model perde de tek tek tüm elemanları ve elemanlar arasındaki bağıntıları tanımladık. Örneğin etriye, boyuna donatı, çiroz ve beton arasındaki bağlantı tek tek tanımlanmıştır. Fakat programda çözüm yapılırken sonlu elemanlar yöntemi kullanılmış ve program parçaları sonlu elemanlara bölerken kancaların büküm noktasını eşit parçalara bölememiş ve kancaların ya düz ya da çok keskin şekilde yapılmasını öngörmüştür. Başka bir sıkıntılı durum ise kanca boylarını tanımlamamıza rağmen program kanca boylarını algılamamış, kanca boylarının kısa olması donatı ile beton arasındaki aderansı tam gerçekleştirememiş ve program da sonuçlara bu durumu yansıtmamıştır. Sonuç olarak kancalı ve kancasız model yapılması, Ansys programın gerçekleştirilememiş ve nedenleri üzerinde durulmuş ve öneriler getirilmiştir. Nowadays, because of growing population and increasing migration from rural areas to cities, high rise building have been built by engineers. Development of technology has provided to construction of special structures.Furthermore, rapidly increase population, people have needed high- rise building, but during the construction of these structures are mistaken by engineers and workers. We try to explain and examine this issue in this thesis. In addition shear wall system is the best for high rise buildings. For this reason, we focus on how shear wall should be designed. Experiencing, theoretical calculations and experiments shows that behavior of reinforced concrete shear wall exhibits a more rigid against the forces of an earthquake. Therefore, these issue is examined in a large part of this thesis.While designing high rise buildings, engineers and workers encountered with major problems. High rise buildings are gradually increasing in our country. However, it is not hard to say that many details are ignored during the contruction of high rise buildings. These problems can be listed as follows:-While designing high rise buildings, security measures is not enough or is not taken sufficiently. Moreover, security experts is not worked in construction site.-Workers have not informed about construction site security and they ignore this condition.-Due to weather condition, concrete?s Design is very hard and chemicals meterial which is added in the concrete so that concrete can be pumped for high rise buildings.-Having done project, owing to inexperienced project engineer, construction site is getting hard. Namely application of construction site can be very hard.-While designing structural system, stiffness and effects of earthquake are ignored.-Because of higher story, vertical load increase as well as some of the junction parts of reinforcement increase its thickness and in this case placement of reinforcement is getting diffucult.-Due to the thickness of reinforcement, the reinforcement of some constructive principles that is non-compliance.-Construction engineers and workers ignore the principles of reinforcement, which is very big problem after designing concrete.-Especially, during designing link is very hard, and so it is often made mistake. Because, higher story is designed-Wind and fire accounts are insufficient, and for this case, it is still a general lack of regulation in our country.-Along with concrete shear wall, construction of retaining wall is known not very well by engineers and workers. Some of the retaining wall has not water drain, which is very big problem for settlements and where it is built.After all the detailed description of this problem. Firstly, all the above negative mentioned in this thesis, we try to examine behavior of the shear wall and shear-framed wall systems. After that we try to explain whether link and reinforcement is designed hook or without designing with hook. Furthermore explaining of adherence between the reinforcement and concerete and what kind of additional system and these condition is to stay.In the last part of this thesis, construction of high rise buildings where they were made in construction site were examined. Designed these buildings, especially designing links without hook and it is designed as a simple system. These situation is very big problem and we try to explanin by means of using LVDT device which is precision measuring device. Moreover, we investigated whether using computer programs achieve positive results or not.Also calculation of fire is explained, because it can be ignored our country and it is not involved within static calculations. Calculation fire is very important for Europen Country and each country has a regulations which has involved calculation of fire. In this case shows that it is very importance for European Countries and our country should calculation abaout this issue to avoid big losses.If engineer necessary measures haven?t been taken to fire, the time of occurance of fire, can be lost very large of life and property. Therefore ,in this thesis, calculation of fire should be done and involved static calculations. Resistance fire of meterial should be known that using in the buildings such as hotels, schools, hospitals, etc. We try to explain how calculation of fire is designed as static calculation. Reinforcement should protect for fire, awerage of concrete cover how it should be designed.High-rise concrete buildings, particulary some part of these buildings where it has a lot of reinforcement which can be problem for designing in the construction site. As a matter of fact that workers avoid designing links which has hook for finishing easily their job, engineers also ignored this conditions for carring out fastly their job. However, sometimes this conditions can be positive effect in case people can find what can be done in case of designing without hook links.Because of fact that all this above explained can be proved in theoretical, we used two computer program and we try to explain without hook links how it can be designed.First, the German software Rstab (Dlubal) program, and the latter program was used Ansys Workbench.Example of two different programs were used and a simple beam modeled on the Rstab program. The only difference between the two beams in the sample is stirrups are hooked on the first beam and hookless on the second beam. Bond between the equipment and hook a computer program with its own software-defined, tried to makea complete adherence between reinforcementand concrete.We are also taking advantage of this featureof the programfor modeling.We have compared the differences between the two samples and made solutions and recommendations.When materials like concrete and steel reach their yielding or fructure strengths, their stress-strain relationsships loose modeling such meterial behavior through nonlinear finite element models become populer after the latest advancements incompuer techology. For the modeling purposes, Ansys finite elemnt software which has a type of elemnt that assumes full bond between steel and concrete and ca model failure in tri-axial stress state, has been used. From the analyses done during the modeling of the force displacement time history of structural members under reversed cycling loading, when the analysis gets closer to the maximum problems and stop the analysis, however, the obtained analysis results before the analysis stops are fairly in accordance with the experimential ones.All the elements and the relationships between elements were described one by one on the load-bearing wall which was transferred to Ansys Workbench program. For example, the connection between stirrups, longitudinal reinforcement, crosstiesand concrete was identified. However, when the solution of finite element method was used in the program and the program track spoint bending finite elements while dividing into equal parts hook sand flat or too sharp division to be made as envisaged. Despite the adversity, the hook lengths define another program does not detect the height hook, the hook is shorter in lengt hand have not done a full program adherence between the reinforcement and the concretedid not show thec onsequences of this situation. In conclusion, Ansys program have not realized the making hooked and without designing hook links model and we focus on the causes, also made recommendations for further study. 209

Published

2012

24. Evaluation of Bond Strength in Concrete Elements Externally Reinforced with CFRP Sheets and Anchoring Devices

Author

Marisa Pecce, Francesca Ceroni, Ceroni, F, and Pecce, M.

Subjects

Bond strength, Materials science, anchorages, RC elements, business.industry, Mechanical Engineering, Bond, EBR-CFRP, Plastic materials, Anchoring, Building and Construction, Structural engineering, Fibre-reinforced plastic, Reinforced concrete, Mechanics of Materials, FRP anchorage systems, Ceramics and Composites, FRP materials, Composite material, business, Civil and Structural Engineering, Concrete

Abstract

Use of anchoring devices can be useful to avoid or delay end debonding failure in reinforced concrete elements externally bonded with fiber-reinforced plastic materials. Many theoretical formulations are now available to predict bond strength, but no design provisions have been suggested to take into account the beneficial effect of anchorage devices. This paper presents the results of experimental bond tests performed on concrete blocks externally strengthened with carbon fiber sheets. The prime focus is the evaluation of effect given by three different types of anchorage systems upon increasing debonding load. A simple model is introduced to predict the influence of the examined anchorage systems on the debonding load. Its accuracy is confirmed by comparisons with the experimental results.

Published

2010

25. Experimental Study of RC Beams Strengthened with Prestressed Steel-Wire BFRP Composite Plate Using a Hybrid Anchorage System.

Author

Wu, Gang, Zhao, Xing, Zhou, Jian, and Wu, Zhishen

Subjects

CONCRETE beams, FIBER-reinforced plastics, CARBON fiber-reinforced plastics, FLEXURAL strength, PRESTRESSED concrete

Abstract

Steel wire-basalt fiber reinforced polymer (BFRP) composite plate (SBFCP) is a newly developed plate for strengthening reinforced concrete (RC) structures with both high performance and economy. This paper presents a prestress technique for flexural strengthening RC beams using SBFCPs after investigating mechanical properties of SBFCPs. To achieve higher levels of fiber strength utilization prior to premature debonding failure, a new hybrid anchoring approach that combines adhesive bonding and mechanical fastening is proposed. Six T-beams with 6 m length were tested under four-point bending. The main variable parameters were the composite plate types and prestress levels. The test results demonstrate that the use of SBFCPs for strengthening RC beams is an effective method for improving the flexural performance. Moreover, in comparison with nonprestressed one, prestressed SBFCP technology can further improve the cracking load and overall stiffness with less strain lag, better bonding, and better utilization efficiency of the strengthening material. In comparison with specimens strengthened with carbon-fiber-reinforced polymer materials, prestressed SBFCP technology also has competitive advantages, particularly with respect to their serviceability and performance-cost ratio. [ABSTRACT FROM AUTHOR]

Published

2015