Mineralogy and Microstructure of Hydrated Phases During the Pozzolanic Reaction in the Sanitary Ware Waste/Ca(<scp>OH</scp>)<sub>2</sub> System

Medina, César; Bosque, I.F. Sáez del; Asensio, Eloy; Frías, Moisés; Rojas, M.I. Sánchez de

doi:10.1111/jace.13939

Cited by 30 publications

(11 citation statements)

References 66 publications

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“…16c. This illustrates the pozzolanic reaction of Si and Al with Ca +2 cations, which encourages further dissolution and breaking the Si-O and Al-O bonds in both MK and NP [77]. Ak products can be distinguished clearly as a predominant phase of flat continuous gels in all blends, but its lowest appearance can be seen in AAC11, which agrees with the XRD patterns.…”

Section: Sem Analysis Of Hydratessupporting

confidence: 80%

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Kadhim

Sadique

Al-Mufti

et al. 2020

Journal of Building Engineering

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One-part earth alkaline activated dry cementitious mixture was produced using thermally activated lime kiln dust (LKD) waste material as a source of CaO activator and metakaolin and natural pozzolan as a source of aluminasilicate • The proportion of LKD and metakaolin in the ternary blend and thermal activation of LKD not only increased the reactivity but also induced higher degree of alkali-activation.• Significant increase in the rate of strength development after 28 days of curing and continued until 180 days that reached 51 MPa for increased proportion of 950ºC calcined LKD and metakaolin in the blend was revealed.• Considerable changes in mineralogy and amorphicity were evidently accredited to thermal treatment.

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Section: Sem Analysis Of Hydratessupporting

confidence: 80%

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Kadhim

Sadique

Al-Mufti

et al. 2020

Journal of Building Engineering

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“…The main difference between the two spectra was that the Q1 unit signal was much more intense in the OPC than in the 20% ACW cement paste, denoting a smaller proportion of end of chain units and hence a higher degree of polymerization in the latter. Other authors have reported similar results for the pozzolanic reaction in fired clay-based waste [34]. Furthermore, the amount, distribution and microstructural characteristics of the C-S-H gel formed have a significant effect on the mechanical strength of the cement.…”

Section: Micro-ramansupporting

confidence: 68%

Coal Mining Waste as a Future Eco-Efficient Supplementary Cementing Material: Scientific Aspects

et al. 2016

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The stockpiling of tailings around coal mines poses a major environmental problem. Nonetheless, this clay mineral (kaolinite)-based waste can be reused as a supplementary cementitious material (recycled metakaolinite) in the manufacture of future eco-efficient cements. This paper explores the most significant scientific questions posed in connection with the conversion of this waste into pozzolans, such as the variation in product mineralogy depending on the sintering temperature and its effect on reaction kinetics in the pozzolan/Ca(OH) 2 system over a period of 365 days. The findings show that the optimal sintering temperature is 600˝C, such that the cementitious properties of the activated product are determined solely by the conversion of kaolinite into metakaolinite and are unaffected by the other clay minerals (micas). The presence of 20% activated coal waste favors the formation of larger amounts of aluminous phases such as C 4 AH 13 and C 4 AcH 12 than in the reference paste and enhances C-S-H gel polymerization.

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“…Fired clay industry waste is one of the new pozzolans explored by researchers. A number of prior studies on this material showed that fired clay of different origins has very promising pozzolanic properties because when fired at temperatures of 600°C‐900°C and ground to cement fineness, initially inert clay minerals acquire substantial pozzolanicity . The evaporation of chemically combined water at such temperatures and the resulting breakdown of the crystalline network of clay constituents induces the formation of an amorphous or vitreous material.…”

Section: Introductionmentioning

confidence: 99%

Use of ceramic industry milling and glazing waste as an active addition in cement

et al. 2017

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The beneficial effects of pozzolans on cement manufacture have encouraged their use in that industry. Traditional natural pozzolan have become less available of late, however, due to a decline in quarrying intensity aimed at minimizing the impact on the landscape. At the same time, environmental policies pursue the reduction or elimination of spoil heaps by valorizing industrial waste and by-products as raw materials, in keeping with the principles of the circular economy.The quest for new types of waste and by-products with pozzolanic properties has consequently become a priority line of research. This study explored the valorization of one such by-product, the ceramic sludge resulting from fired clay industry milling and glazing, as a component in new, more eco-sustainable cements. The sludge was characterized physically, chemically, morphologically, and mineralogically to determine its suitability as a pozzolanic addition in cement. The findings showed that ceramic sludge consists in clustered particles ranging in size from 100 lm to 1 lm. SiO 2 , Al 2 O 3 , and Fe 2 O 3 together comprise over 70% of the total composition, while the reactive silica content is greater than the 25% required by the existing legislation. The predominant minerals are quartz, kaolinite, and muscovite, with some zircon. A study of pozzolanic reaction kinetics in the ceramic sludge/lime system revealed that over time this waste can fix lime, generating products such as calcium aluminate hydrates and C-S-H gels. The cements made with ceramic sludge proved to be standard-compliant in terms of water demand, setting, drying shrinkage and mechanical strength. K E Y W O R D S cements, ceramic waste, pozzolanic activity, supplementary cementitious materials

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Mineralogy and Microstructure of Hydrated Phases During the Pozzolanic Reaction in the Sanitary Ware Waste/Ca(OH)₂ System

Cited by 30 publications

References 66 publications

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Coal Mining Waste as a Future Eco-Efficient Supplementary Cementing Material: Scientific Aspects

Use of ceramic industry milling and glazing waste as an active addition in cement

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Mineralogy and Microstructure of Hydrated Phases During the Pozzolanic Reaction in the Sanitary Ware Waste/Ca(OH)2 System

Cited by 30 publications

References 66 publications

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Long-term performance of novel high-calcium one-part alkali-activated cement developed from thermally activated lime kiln dust

Coal Mining Waste as a Future Eco-Efficient Supplementary Cementing Material: Scientific Aspects

Use of ceramic industry milling and glazing waste as an active addition in cement

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Mineralogy and Microstructure of Hydrated Phases During the Pozzolanic Reaction in the Sanitary Ware Waste/Ca(OH)₂ System