Influence of Recycled Aggregates on the Mechanical Properties of Synthetic Fibers-Reinforced Masonry Mortars

Morón, Alberto; Saíz, Pablo; Vega, Gabriela; Morón, Carlos

doi:10.3390/infrastructures6060084

Cited by 11 publications

(16 citation statements)

References 42 publications

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“…This value has an impact on the final properties of mortars and concretes elaborated with these recycled aggregates, since, although it can improve the workability of the mix in a fresh state, it impacts negatively the compressive strength of the hardened sample and causes the decrease in its elasticity modulus [ 48 ]. These effects have been verified in other previous investigations, where it has been observed that mortars fabricated with aggregates that had a higher coefficient of friability impacts negatively compressive strength and elasticity [ 49 ].…”

Section: Analysis Of Resultssupporting

confidence: 84%

Characterization of Three Types of Recycled Aggregates from Different Construction and Demolition Waste: An Experimental Study for Waste Management

Saíz

Morón

Melane-Lavado

et al. 2023

IJERPH

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Achieving sustainable management and efficient use of natural resources stands out as one of the goals included in the Goals for Sustainable Development in the 2030 Agenda. The construction sector is currently far from presenting an efficient model in terms of treating waste generated by it. Variations in the physical and chemical properties of recycled aggregates coming from construction and demolition waste are one of the main reasons of their limited use in the production of construction materials. This research presents a physicochemical characterization of three different types of recycled aggregates coming from different types of waste: concrete, ceramic and mixed. Physical characterization shows that recycled concrete aggregate has better physical properties compared with mixed recycled aggregate and ceramic recycled aggregate, which makes it more suitable for use in masonry mortars and concrete, due to its higher dry density (2210.33 kg/m3), its lower content of fines (5.17%), its lower friability coefficient (24.60%), and its water absorption coefficient (6.70%). Chemical characterization shows that none of the tested recycled aggregates contains traces of harmful chemical agents that exceed the limits established by the reference regulations. Finally, the statistical analysis shows good homogeneity for these raw materials, obtaining low coefficients of variation and values within the recommended in each of the calculated confidence intervals.

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Section: Analysis Of Resultssupporting

confidence: 84%

Characterization of Three Types of Recycled Aggregates from Different Construction and Demolition Waste: An Experimental Study for Waste Management

Saíz

Morón

Melane-Lavado

et al. 2023

IJERPH

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“…As can be seen in Table 7 and Figure 5, the reference mortars without additions were the ones with the highest mechanical resistance to compression (3.2367 MPa), because they presented a more compact matrix and there were no preferred breakage points, as they did not incorporate insulation materials. For this property, it is observed that the addition of mineral wool fibers did not imply an improvement in compressive strength, as has been observed in other previous studies of fiber-reinforced mortars [77]. Even so, mortars with the addition of mineral wool insulation present higher resistance than mortars with the incorporation of expanded polystyrene granules.…”

Section: Compressive Strengthsupporting

confidence: 74%

Circular Building Process: Reuse of Insulators from Construction and Demolition Waste to Produce Lime Mortars

et al. 2022

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This research aims to revalue the possibilities presented by lime mortars for use in renovation and as cladding material on facades. The study focuses on analyzing the technical feasibility of lime mortars with the incorporation of residues from three types of thermal insulation materials: expanded polystyrene with graphite especially suitable for use on facades; expanded polystyrene for use indoors; and insulating mineral wool. The incorporation of these construction and demolition residues makes it possible to improve several technical performance aspects of lime mortars, and to incorporate circular economy criteria in the manufacturing process of these materials. The results showed that the incorporation of mineral wool improves the mechanical resistance to the bending of mortars, increases their durability against freeze–thaw cycles and salt crystallization, and reduces the final shrinkage of mortars. For their part, mortars with the addition of polystyrene-insulating residues reduce mechanical resistance, but also reduce thermal conductivity, and are lighter, which is why they are shown as a possible alternative for use in precast.

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“…Water is the essential component responsible for hydrating the cement and providing the mixture with good workability [61]. For this work, drinking water from the Canal de Isabel II of the Community of Madrid was used, which has the following main characteristics [62]: soft hardness (25 mg CaCO 3 /l), neutral pH between 7 and 8 recommended to avoid setting alterations and excessive decreases in strength and durability [63], and a chloride content ranging between 1 and 1.5 mg/L without exceeding the recommended limit for the preparation of mortars [64].…”

Section: Water and Additivementioning

confidence: 99%

Experimental Study with Cement Mortars Made with Recycled Concrete Aggregate and Reinforced with Aramid Fibers

2021

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The reuse of construction and demolition waste is a necessary way to achieve greater sustainability in building, introducing the criteria of the so-called circular economy in the design of the production process of new construction materials. This research focuses on analyzing the properties of mortars made with recycled aggregates from concrete waste and reinforced with aramid fibers. For this purpose, an experimental campaign was carried out, including chemical, physical, mechanical and durability tests, performing a statistical analysis to discuss the different properties analyzed. The results show how the incorporation of aramid fibers in the matrix of cement mortars made with recycled concrete aggregate improves their technical performance and mechanical resistance, thus increasing their application possibilities and achieving similar results in some properties to those obtained with traditional mortars made with natural aggregate.

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Influence of Recycled Aggregates on the Mechanical Properties of Synthetic Fibers-Reinforced Masonry Mortars

Cited by 11 publications

References 42 publications

Characterization of Three Types of Recycled Aggregates from Different Construction and Demolition Waste: An Experimental Study for Waste Management

Characterization of Three Types of Recycled Aggregates from Different Construction and Demolition Waste: An Experimental Study for Waste Management

Circular Building Process: Reuse of Insulators from Construction and Demolition Waste to Produce Lime Mortars

Experimental Study with Cement Mortars Made with Recycled Concrete Aggregate and Reinforced with Aramid Fibers

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