Guidelines for assessing the valorization of a waste into cementitious material: dredged sediment for production of self compacting concrete

Rozas, F.; Castillo, Á.; Martínez, I.; Castellote, Marta

doi:10.3989/mc.2015.10613

Cited by 8 publications

(8 citation statements)

References 29 publications

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“…Since CB, MB and SW have similar reactivity and considering the replacement level (8,24 and 40% w/w) by ceramic waste, in general, the emission in 72, 216 and 360 g CO 2 / kg cement could be reduced, respectively. Portland blended cements: demolition ceramic waste management • 7 In 2014, according to the Association of Portland Cement Manufacturers in Argentina (AFCP) (31), 11,438,165 t of cement were exported to the domestic market.…”

Section: Environmental Benefitsmentioning

confidence: 99%

Portland blended cements: demolition ceramic waste management

et al. 2017

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Demolition ceramic wastes (DCWs) were investigated in order to determine their potential use as supplementary cementitious materials in Portland Blended Cements (PBCs). For this purpose, three ceramic wastes were investigated. After characterization of the materials used, the effect of ceramic waste replacement (8, 24 and 40% by mass) was analyzed. Pozzolanic activity, hydration progress, workability and compressive strength were determined at 2, 7 and 28 days. The results showed that the ground wastes behave as filler at an early age, but as hydration progresses, the pozzolanic activity of ceramic waste contributes to the strength requirement. RESUMEN:Cementos Portland con adiciones: manejo de residuos cerámicos de demolición. Se estudiaron residuos cerámicos de demolición (DCWs) a fin de determinar su potencial uso como materiales cementicios suplementarios en cementos mezcla (PBC). Para este propósito, se investigaron tres residuos cerámicos. Luego de la caracterización de los materiales a utilizar, se analizó el efecto del reemplazo por residuos cerámico (8, 24 y 40% en peso). Se estudió la actividad puzolánica, el progreso de la hidratación, la trabajabilidad y la resistencia a compresión a 2, 7 y 28 días. Los resultados mostraron que los residuos molidos se comportaron como fillers a edades tempranas, pero con el progreso de la hidratación, la actividad puzolánica de los residuos cerámicos contribuye a los requerimientos de resistencia.

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Section: Environmental Benefitsmentioning

confidence: 99%

Portland blended cements: demolition ceramic waste management

et al. 2017

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“…In fact, Silica fume (SF) increases the cement cohesion and compressive resistance because it has a higher specific surface than metakaolin and cement, other studies confirmed these results and indicated that the use of metakaolin and Silica fume (SF) could increase the compressive resistance [9,[15][16][17]. Several experimental researches were conducted in recent years to investigate the effect of regular, volcanic, waste aggregate materials on different properties of self-compacted concrete [18][19][20][21]. Although there are acceptable studies about Silica fume (SF) and metakaolin, but there is only limited studied about the use of both of them simultaneously.…”

Section: Introductionmentioning

confidence: 99%

Improving the Properties of Self-compacted Concrete with Using Combined Silica Fume and Metakaolin

Sharbatdar

Abbasi

Fakharian

2020

Period. Polytech. Civil Eng.

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The viscosity is the main property of self- compacted concrete (SCC) and using of pozzolan material such as metakaolin (MK) and Silica fume (SF) can help to achieve that goal. The effect of simultaneous substitution of MK and SF instead of cement on the rheological and mechanical properties of self-compacted concrete was experimentally investigated in this paper. Seventeen mix designs were cast with a substitution weight percentage (5, 10, 15, 20 %) in water to adhesive material ratio equal 0.32. All mixes were examined by compressive, tensile strengths and water absorption tests with an appropriate fluidity, without having signs of segregation or instability. The test results were indicated that the SCC mixes containing MK and SF had higher compressive and tensile strengths in comparison with no-pozzolan concrete. The comparison of linear multiple regression techniques (LMRT) and nonlinear multiple regression technique outputs with experimental results showed an appropriate similarity.

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“…Beside economic, there are also important environmental benefits by using industrial by-products. Also, data regarding the use of waste and cementitious materials in SCC was analyzed in previous study, show that industrial waste is among the most prominent (15). Namely, the design of SCC allows usage of industrial and building wastes in case of producing SCC with the same or better engineering properties (6,14,16,17), while the purpose of using powdered waste industrial residues is to ensure sustainable production of SCC and to produce "green concrete" (6,(18)(19)(20)(21).…”

Section: Introductionmentioning

confidence: 99%

Effects of waste sulfur content on properties of self-compacting concrete

et al. 2020

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Self-compacting concrete (SCC) contains fine mineral fillers such as limestone powder. The idea of this study was to partially replace limestone with waste sulfur since it is hydrophobic, insoluble in water and therefore chemically inert and to compare the properties of produced concrete samples. Fresh concrete properties included: slump-flow, t500, V-funnel time, L-box ratio, segregation ratio, density, and entrained air content. Hardened concrete was tested for compressive, flexural and bond strengths, ultrasonic velocity, dynamic elasticity modulus, dynamic Poisson’s ratio, and microstructure. Flowability and segregation increased, while bulk density, compressive and flexural strength, dynamic elasticity modulus and ultrasonic velocity slight declined. Times t500 and V-funnel time, L-box ratio and entrained air changed insignificantly. Considering that all properties should remain or improve in case of waste valorization and the criteria should set to satisfy requirements for SCC, this study proved that all mixtures can be used for structural applications.

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Guidelines for assessing the valorization of a waste into cementitious material: dredged sediment for production of self compacting concrete

Cited by 8 publications

References 29 publications

Portland blended cements: demolition ceramic waste management

Portland blended cements: demolition ceramic waste management

Improving the Properties of Self-compacted Concrete with Using Combined Silica Fume and Metakaolin

Effects of waste sulfur content on properties of self-compacting concrete

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