Hemp-FRP for Seismic Retrofitting of Existing Masonry Buildings

Formisano, Antonio; Vaiano, Generoso; Petrucci, Nicola Junior

doi:10.1007/978-3-030-90788-4_33

Cited by 3 publications

(2 citation statements)

References 30 publications

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“…Hemp fibres can be utilized as fibre reinforcement both in fresh concrete mix and as a retrofitting technique. Study results have shown that hemp fibres can be used to undertake low-cost and minimally invasive seismic interventions without disrupting the use of a structure, while at the same time providing adequate strength and ductility as C-FRP materials [ 56 ].…”

Section: External Bonded Nfrp Strengthening Techniques Adopted In Pas...mentioning

confidence: 99%

Experimental Investigation on the Strengthening of Reinforced Concrete Beams Using Externally Bonded and Near-Surface Mounted Natural Fibre Reinforced Polymer Composites—A Review

Effiong

Ede

2022

Materials

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Developing more resilient and sustainable physical infrastructure increases the demand for sustainable materials and strengthening approaches. Many investigations into strengthening RC beam structures have used either externally bonded (EB) or near-surface mounted (NSM) systems with synthetic fibre reinforced polymer composites. These synthetic fibres are unsustainable since they involve the use of nonrenewable resources and a large amount of energy. Research shows that natural fibre reinforced polymer (NFRP) composites may be an alternative to synthetic FRP composites in the strengthening of concrete beams. However, there is limited literature that validates their performance in various structural applications. Hence, the purpose of this paper is to explore the advances, prospects, and gaps of using EB/NSM NFRP techniques in strengthening concrete beams to provide areas for future research directions. The NSM FRP technique provides improved strengthening effects and mitigates the concerns associated with the EB system, based on a wider range of applications using synthetic FRPs. However, the NSM NFRP strengthening technique has been underutilized, though the EB NFRP system has been more commonly explored in reviewed studies. The knowledge gaps and areas for proposed future research directions are essential in developing work in emerging NFRPs and strengthening techniques for sustainable infrastructure.

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Section: External Bonded Nfrp Strengthening Techniques Adopted In Pas...mentioning

confidence: 99%

Experimental Investigation on the Strengthening of Reinforced Concrete Beams Using Externally Bonded and Near-Surface Mounted Natural Fibre Reinforced Polymer Composites—A Review

Effiong

Ede

2022

Materials

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“…The drawbacks of these structures are the lateral thrust and the transverse shear for asymmetric, dynamic, and horizontal loading. To overcome these major limitations, in recent decades, starting from the 1990s, the exploitation of innovative materials composed of fibers embedded in a polymeric matrix has become an object of scientific interest and can be found in many forms of professional design, thanks to the increase in structural capacity achieved with their application [1][2][3][4][5][6][7][8]. In parallel, experimentation [9] and sophisticated numerical [10][11][12] models have also been developed.…”

Section: Introductionmentioning

confidence: 99%

Simple Nonlinear Numerical Modeling for Unreinforced and FRP-Reinforced Masonry Domes

Gandolfi,

Pingaro,

Milani

2024

Buildings

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This paper presents a new method to model the nonlinear behavior of double-curvature masonry structures, possibly reinforced by composite materials, by means of conventional elasto-plastic analyses. The method is meant to be used in professional design, especially for assessment and retrofitting purposes, based on the exploitation of the simplest nonlinear finite elements available in commercial software, namely, trusses with elasto-fragile and elasto-ductile behavior (Cutoff Bars, according for instance to the definition provided by Strand7 R3.1.3a). Numerical static nonlinear analyses are carried out by considering elastic hexahedral elements for bricks and by lumping nonlinearities on joints. These are assumed, in turn, to be elastic–brittle and elastic–plastic by using 1D elements, namely, Point Contacts, under the No-Tension Material hypothesis, and Cutoff Bars, respectively, assigning a small tensile resistance to the material. The reinforcement, realized with FRP hooping strips, is successfully modeled in a similar fashion, i.e., by applying perfectly bonded elastic–plastic Cutoff Bars at the extrados of the dome, where debonding is accounted for in a conventional way, limiting the tensile strength according to Italian Standards’ indications. The procedure is validated against benchmark models with the same geometry, using experimental data and more refined structural model results for comparison. After an in-depth analysis of the obtained results, in terms of capacity curves, the robustness and accuracy of the proposed approach are assessed.

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