Exploitation of Ultrahigh‐Performance Fibre‐Reinforced Concrete for the Strengthening of Concrete Structural Members

Al‐Osta, Mohammed A.

doi:10.1155/2018/8678124

Cited by 22 publications

(10 citation statements)

References 30 publications

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“…A photo of the damaged beam after cleaning is shown in Figure 3 a . Note that the surfaces could be roughened through sandblasting which proved to be a viable solution when applying it to the parent concrete surface before strengthening ( 6 ).…”

Section: Repair Of the Damaged Beamsmentioning

confidence: 99%

“…In all cases, results showed that the strengthening/repair methods lead to higher stiffness, increased capacity, and delayed crack formation and propagation. A literature review of research studies and practical applications on the repair and strengthening of concrete members using high-strength and high-performance concretes is reported by Al Osta ( 6 ).…”

Section: Introductionmentioning

confidence: 99%

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Repair of Severely Damaged Reinforced Concrete Beams with High-Strength Cementitious Grout

Gergess

Shabab

Massouh

2020

Transportation Research Record: Journal of the Transportation R

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High-strength cementitious materials such as high-performance concrete are extensively used for retrofit of reinforced concrete (RC) structures. The effectiveness of these materials is increased when mixed with steel fibers. A commonly used technique for strengthening and repair of RC beams consists of applying high-performance fiber-reinforced concrete jackets around the beam perimeter. This paper investigates the jacketing method for repairing severely damaged RC beams. Four 2 m (6 ft 63/4 in.) long rectangular RC beams, 200 × 300 mm (8 ×12 in.) were initially cast and loaded until failure based on three-point bending tests. The four beams were then repaired by thickening the sides of the damaged RC beams using a commercially available high-strength shrinkage grout with and without steel fibers. Strain and deformation were recorded in the damaged and repaired beams to compare structural performance. It is shown that the flexural strength of the repaired beams is increased and the crack pattern under loading is improved, proving that the proposed repair method can restore the resistance capacity of RC beams despite the degree of damage. A method for repair is proposed and an analytical investigation is also performed to understand the structural behavior of the repaired beams based on different thickening configurations.

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Section: Repair Of the Damaged Beamsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Repair of Severely Damaged Reinforced Concrete Beams with High-Strength Cementitious Grout

Gergess

Shabab

Massouh

2020

Transportation Research Record: Journal of the Transportation R

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“…The aforementioned literature review reveals that the majority of the conducted research is focused on the application of nonconventional jackets in strengthening methods of original RC structural members [17][18][19]21,22,24,[26][27][28][30][31][32][33][34]36,[38][39][40][41][42][43][44][45][48][49][50]56]. Significantly fewer studies investigate such jackets for the repair of preloaded and slightly damaged RC specimens [20,23,25,29,35,37,46,47,[51][52][53][54][55].…”

Section: Research Significancementioning

confidence: 99%

“…These reasons have led researchers to switch to new jacketing techniques with alternative materials such as steel [17][18][19], advanced materials such as fiber reinforced polymer (FRP) [20][21][22][23][24][25], textile reinforced concrete or mortar [26][27][28][29] and shape memory alloys [30][31][32], cement-based materials such as ferrocement [33][34][35][36], steel fibrous concrete or mortar [37][38][39][40], high-performance fiber reinforced concrete [41][42][43][44][45][46][47][48], self-compacting concrete (SCC) [49][50][51][52][53][54], and thin slightly reinforced flowable mortar [55,56]. Many of these jacketing techniques have been proved successful substitutes to common RC jacketing.…”

Section: Introductionmentioning

confidence: 99%

Repair of Heavily Damaged RC Beams Failing in Shear Using U-Shaped Mortar Jackets

et al. 2019

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The effectiveness of slightly reinforced thin U-shaped cementitious mortar jacketing for the repair of damaged shear-critical reinforced concrete beams is experimentally investigated. The test project includes two parts. In the first one, five concrete beams over-reinforced against flexure and under-reinforced against shear with different ratio of closed stirrups were initially subjected to monotonic loading until failure. The initially tested beams have been designed to fail in shear after wide diagonal cracking and to exhibit various strength and deformation capacities along with different levels of damages. In the second experimental part, the heavily damaged beams were jacketed with mild steel small diameter U-shaped transverse stirrups and longitudinal reinforcing bars. The retrofitted specimens using the proposed jacketing technique were tested again following the same four-point-bending load scheme. Based on the overall performance of the beams, it is deduced that the shear strength and deformation capability of the jacketed beams were substantially increased compared to the corresponding capacities of the initial beams. Further, although all beams failed in a shear abrupt manner, the retrofitted ones exhibited reduced brittleness and higher deflections at failure up to six times with respect to the initially tested specimens. The level of the initial damage influences the efficiency of the jacketing. Additional test data derived from relative shear-damaged beam specimens and retrofitted with similar thin jackets is also presented herein in order to establish the effectiveness of this repair system and to clarify the parameters affecting its structural reliability. Comparisons indicated that jacketed beams can alter the failure mode from brittle shear to ductile flexural under certain circumstances.

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“…This type of concrete is chosen because it exhibits high strength and durability minimizing the need for future maintenance . Al‐Osta and Brühwiler and Denarié reported that UHPFRC has a compressive strength of more than 170 MPa, a flexural strength higher than 30 MPa, and a tensile strength over 8 MPa. Its strength is superior to that of the existing conventional concrete making it a perfect choice to be used as a repair material.…”

Section: Introductionmentioning

confidence: 99%

Fluid transport properties of normal concrete substrate and a new green fiber reinforced concrete overlay composite

Hassan

Sabah

Bunnori

et al. 2019

Structural Concrete

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The fluid transport properties of normal concrete (NC) substrate as old concrete and ultra-high performance fiber reinforced concrete called Green Universiti Sains Malaysia Reinforced Concrete (GUSMRC) as a repair material were investigated.GUSMRC is a new green concrete in which 50% of its volume contains ultra-fine palm oil fuel ash. The NC substrate surfaces were first subjected to different surface treatments (grinding and sand-blasting) prior to casting the GUSMRC repair material to form the NC/GUSMRC composite. The GUSMRC was bonded to the old concrete using the overlay and half-half layering conditions. The fluid transport properties of the monolithic GUSMRC (repair material) were also assessed. Results showed that GUSMRC has a high resistance against fluid and gas penetration and can be employed as a repair material to enhance the old concrete impermeability. The overlay layering condition improved the NC/GUSMRC composite impermeability by 2-2.8 times more than the half-half layering, and the surface treatment method had a negligible impact on the composite impermeability. K E Y W O R D S fluid transport properties, layering condition, palm oil fuel, repair material, surface treatment

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Exploitation of Ultrahigh‐Performance Fibre‐Reinforced Concrete for the Strengthening of Concrete Structural Members

Cited by 22 publications

References 30 publications

Repair of Severely Damaged Reinforced Concrete Beams with High-Strength Cementitious Grout

Repair of Severely Damaged Reinforced Concrete Beams with High-Strength Cementitious Grout

Repair of Heavily Damaged RC Beams Failing in Shear Using U-Shaped Mortar Jackets

Fluid transport properties of normal concrete substrate and a new green fiber reinforced concrete overlay composite

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