2021
DOI: 10.1016/j.conbuildmat.2020.121704
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Effect of partial replacement of the cement by glass waste on cementitious pastes

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Cited by 32 publications
(18 citation statements)
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“…Fine particles (below 150 μm) of glass generally have benefits for cement-based materials due to pozzolanic activity, while coarser particles are detrimental due to alkali-silica reaction (Jochem et al, 2021). Some studies correlate increased pozzolanic activity with decreased expansions caused by alkalisilica reaction (ASR) when WGP particles are ground below the size of cement particles (>10 µm) .…”
Section: Resultsmentioning
confidence: 99%
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“…Fine particles (below 150 μm) of glass generally have benefits for cement-based materials due to pozzolanic activity, while coarser particles are detrimental due to alkali-silica reaction (Jochem et al, 2021). Some studies correlate increased pozzolanic activity with decreased expansions caused by alkalisilica reaction (ASR) when WGP particles are ground below the size of cement particles (>10 µm) .…”
Section: Resultsmentioning
confidence: 99%
“…For Jochem et al (2021), pastes prepared with waste glass showed little influence on workability compared to the reference paste (0% WGP). Moreover, no trend could be evidenced, since the spread on the table of pastes made with 20% GPW milled for 48h increased by 1.8% or reduced to 5.4% in pastes made with 10% GPW milled for 6h compared to the sample without WGP, which obtained 328 mm of spread on the table.…”
Section: Pastementioning
confidence: 93%
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“…Resources Application cement municipal solid waste incineration fly ash [8] produce eco-friendly supplementary cementitious materials in the manufacture of eco-cements textile waste [9] produce lightweight concrete partition seashell waste [10] use seashell waste as fine aggregate or cement substitute clay brick waste [11] replace cement with brick waste powder to produce sustainable construction materials glass waste [12] replace cement with ground glass waste eggshell ash and strap plastic waste [13] replace cement with eggshell ash and reinforced with waste plastic fiber asphalt fish scale powder [14] use fish scale powder to improve asphalt performance waste wood [15] use bio-oil extracted from waste wood to rejuvenate asphalt binder waste steel shavings and waste ferrites [16] use waste steel shavings and ferrites to heal pavement crack by induction heating plastic waste [17] improve rutting and fatigue performance asphalt dry battery waste powder [18] improve high-temperature characteristics of asphalt swine manure [19] ameliorate low-temperature characteristics of asphalt others electronic wastes (polyethylene) [20] produce a construction part with electromagneticinterference-shielding characteristics city sewage sludge [21] produce clay bricks inexpensively residue of municipal solid waste pyrolysis [22] manufacture ceramic material It is well known that asphalt materials are widely used in road engineering construction because of their various advantages. Asphalt is extracted from crude oil, which is a non-renewable resource.…”
Section: Methodsmentioning
confidence: 99%
“…Jani et al proved that glass powder has good pozzolanic activity when the particle size is less than 20µm.The activity indices of 7d, 28d, and 90d reach 82%, 95%, and 102% [20], respectively. Schwarz et al found that when the waste glass powder is added into concrete, the compressive strength of concrete is the best, and the hydration effect is enhanced when the content is 10% [21].…”
Section: Introductionmentioning
confidence: 99%