Influence of Wood-Based Biomass Ash Admixing on the Structural, Mechanical, Hygric, and Thermal Properties of Air Lime Mortars

Pavlíková, Milena; Zemanová, Lucie; Pokorný, Jaroslav; Záleská, Martina; Jankovský, Ondřej; Lojka, Michal; Pavlík, Zbyšek

doi:10.3390/ma12142227

Cited by 21 publications

(7 citation statements)

References 71 publications

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“…To confirm the pozzolanic activity of the metakaolin, it was measured following the French standard NF P18-513 [27]. The lower limit to be considered as pozzolanic is 650 mg of Ca(OH) 2 [28] and the results obtained with metakaolin used in this work provide a value of 946 mg of Ca(OH) 2 ; hence, metakaolin is considered to be a pozzolanic material. Finally, fine (FA) and coarse (CA) crushed aggregates (limestone) were used, with nominal size of 0-4 and 6-12 mm.…”

Section: Raw Materials Characterizationmentioning

confidence: 94%

Rheology, durability, and mechanical performance of sustainable self-compacting concrete with metakaolin and limestone filler

Rojo-López

González-Fonteboa

Martínez-Abella

et al. 2022

Case Studies in Construction Materials

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Section: Raw Materials Characterizationmentioning

confidence: 94%

Rheology, durability, and mechanical performance of sustainable self-compacting concrete with metakaolin and limestone filler

Rojo-López

González-Fonteboa

Martínez-Abella

et al. 2022

Case Studies in Construction Materials

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“…On this account, there is a need to develop new mortars for plastering, rendering, and masonry purposes that will be compatible with materials originally inbuilt and for their properties to comply with present technical and functional standards. Due to several severe problems associated with the use of PC-based mortars in repair works [27,28,29,30,31], they are no longer applicable for rendering and plastering of historically valuable buildings and cultural heritage monuments. As PC has some inadequate properties and is incompatible with many traditional materials inbuilt in historical buildings [32,33,34,35], air lime, natural hydraulic lime, lime-pozzolan, and PC-lime-based mortars represent alternatives to PC mortars which are too rigid, low water vapor permeable, and susceptible to frost damage.…”

Section: Introductionmentioning

confidence: 99%

Mortars with Crushed Lava Granulate for Repair of Damp Historical Buildings

et al. 2019

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In this paper, crushed lava granulate was used as full silica sand replacement in composition of repair mortars based on hydrated lime, natural hydraulic lime, or cement-lime binder. Lava granules were analyzed by X-ray fluorescence analysis (XRF), X-ray diffraction (XRD), and scanning electron microscopy (SEM). Particle size distribution of both silica and lava aggregates was assessed using standard sieve analysis. Hygrothermal function of the developed lightweight materials was characterized by the measurement of complete set of hygric, thermal, and structural parameters of the hardened mortar samples that were tested for both 28 days and 90 days cured specimens. As the repair mortars must also meet requirements on mechanical performance, their compressive strength, flexural strength, and dynamic Young’s modulus were tested. The newly developed mortars composed of lava aggregate and hydrated lime or natural hydraulic lime met technical, functional, compatibility, and performance criteria on masonry and rendering materials, and were found well applicable for repair of historically valuable buildings.

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“…In contrast, research on employing WBA as a pozzolanic and/or hydraulic component in the formulation of hydraulic lime, which is the focus of this research, is still limited. Previous studies have focused almost exclusively on the influence of WBA addition on the properties of air-lime mortars [28][29][30][31][32], while only a few papers in the literature place WBA within the framework of a hydraulic lime framework [33][34][35][36]. As hydraulic lime is a favorable material for use in buildings subjected to considerable atmospheric action [37,38], its value must be highlighted when used in historic buildings, instead of air-lime, which is often considered the material most like the materials originally used.…”

Section: Introductionmentioning

confidence: 99%

Sustainable Hybrid Lime Mortars for Historic Building Conservation: Incorporating Wood Biomass Ash as a Low-Carbon Secondary Binder

2023

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Renewables-based power grid expansion has increased the use of wood biomass as a low-carbon fuel, resulting in the generation of predominantly inorganic wood biomass ash (WBA) as waste during biomass combustion. The conservation of historically valuable, damaged, and energy-inefficient buildings can help downsize carbon emissions and energy consumption, while promoting the use of alternative repair materials, including unavailing materials such as WBA, and implementing zero-waste measures. This study aims to underscore the importance of a proactive approach in managing WBA and its application in artificial hydraulic lime (AHL) mortars. Hybrid lime mortars were prepared by combining natural hydraulic lime (NHL) as the primary binder with fly wood biomass ash (WBA) as the secondary substitute, using different mass ratios of NHL to WBA (100:0, 80:20, and 70:30). The experimental framework encompassed interconnected analytical steps, ranging from binder analysis to paste and mortar preparation. The chemical and mineralogical composition, physical properties, and reactivity of WBA were evaluated to determine the appropriate proportion of WBA for low-carbon AHL binder formulation. Prior to mortar mixing, the water demand, setting time, and soundness of the AHL pastes were assessed. The effects of each AHL binder blend on the mechanical properties of the AHL mortars were analyzed based on compressive and flexural strength measurements after 28 days of curing under different CO2 and moisture conditions (CO2~400 ppm at 70% RH and 95% RH; CO2~30,000 ppm at 60% RH). Additionally, changes in the porous structure were studied. Notwithstanding the greatly prolonged setting time, the results indicate that the mechanical properties of AHL mortars can be enhanced by the addition of WBA in a moderate ratio, empowering the development of environmentally friendly lime mortars suitable for conservation purposes.

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Influence of Wood-Based Biomass Ash Admixing on the Structural, Mechanical, Hygric, and Thermal Properties of Air Lime Mortars

Cited by 21 publications

References 71 publications

Rheology, durability, and mechanical performance of sustainable self-compacting concrete with metakaolin and limestone filler

Rheology, durability, and mechanical performance of sustainable self-compacting concrete with metakaolin and limestone filler

Mortars with Crushed Lava Granulate for Repair of Damp Historical Buildings

Sustainable Hybrid Lime Mortars for Historic Building Conservation: Incorporating Wood Biomass Ash as a Low-Carbon Secondary Binder

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