Use of marble dust as paste replacement for recycling waste and improving durability and dimensional stability of mortar

Li, L.G.; Huang, Zhiyong; Tan, Yanbin; Kwan, A.K.H.; Liu, F.

doi:10.1016/j.conbuildmat.2018.01.154

Cited by 100 publications

(33 citation statements)

References 36 publications

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“…A durabilidade dessas argamassas foi avaliada por dois autores [10,20], e é uma característica importante de se avaliar, pois a adição deste resíduo à mistura pode provocar uma reação tardia dos silicatos (reações álcali-silicatos), e isso pode gerar uma reação expansiva na argamassa, resultando em fissuras [6]. Os estudos mostraram que incorporação de até 30% de resíduo é viável tecnicamente no que diz respeito à durabilidade.…”

Section: Características Da Argamassa Contendo Resíduos Da Indústria unclassified

Avaliação Do Uso De Resíduos Da Indústria De Rochas Ornamentais Em Produtos De Matriz Cimentícia: Uma Revisão Sistemática

Ghirardi¹,

Vieira²,

Cardoso³

et al. 2019

Blucher Engineering Proceedings

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Resumo: O reaproveitamento de resíduo sólido, é uma responsabilidade de todas as indústrias. Desta forma, este trabalho analisa as contribuições das pesquisas produzidas acerca do uso de resíduos da indústria de Rochas Ornamentais em produtos de matriz cimentícia para construção civil. Essa análise foi feita através de uma revisão sistemática da literatura nas bases de dados, ScienceDirect e Portal de Periódicos Capes. O estudo permitiu concluir que o uso de resíduos da indústria de Rochas Ornamentais em produtos de matriz cimentícia é possível, pois a composição química do resíduo é similar à das matérias-primas já usadas tradicionalmente, desde que observados os teores de incorporação. Contudo, é necessário que novas pesquisas sejam feitas para verificar a possibilidade de incorporar um teor maior de resíduos nos produtos, sem comprometimento técnico.

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Section: Características Da Argamassa Contendo Resíduos Da Indústria unclassified

Avaliação Do Uso De Resíduos Da Indústria De Rochas Ornamentais Em Produtos De Matriz Cimentícia: Uma Revisão Sistemática

Ghirardi¹,

Vieira²,

Cardoso³

et al. 2019

Blucher Engineering Proceedings

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“…The key reason behind this phenomenon is the excessive production of waste such as marble powder which not only poses hazards but also creates problems with desposal. The use of this waste material in the building would ease adverse environmental effects, save energy and money, add economic value to the waste, and reduce total costs [5]. It is generally utilized to stabilize soil for the construction of road pavement [3,4], railways foundations [6], embankments [7], buildings, beneath connect docks, earthen dams, terminals for rail and wagon, an economical base for roadways, building cushions, and reservoir linings, composting facilities and as a mixture material for several purposes in construction work [1,2,8].…”

Section: Introductionmentioning

confidence: 99%

“…Marble is being carried out in different industrial resources and plants in just over 50 countries around the world [9,11]. China is the world's second-largest marble producer and produces about 350 million m 2 of marble planks in 2015 [5]. As the cutting of marble stone makes sludge, in this manner, the quickly developing marble industry has environmental concerns because of the negative impacts of marble quarrying [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Utilization of Marble Powder and Magnesium Phosphate Cement for Improving the Engineering Characteristics of Soil

Rai

Pei

Meng

et al. 2020

Int. J. of Geosynth. and Ground Eng.

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In this study, the effects of waste marble powder and magnesium phosphate cement on the properties of soil were investigated. The incorporation of waste marble powder (MP) and (MPC) magnesium phosphate cement as a novel additive, lead the significant environmental and economic contributions in soil stabilization. The key properties of natural soil were extracted and several tests, such as specific gravity, Atterberg limits, sieve analysis, unconfined compression strength test, Direct shear box test, modified Proctor test, California bearing ratio, and Scanning electron microscopy test were performed on soil samples prepared with different percentages of MPC and MP, i.e. 0%, 2.5%, 5%, 7.5% and 0%, 5%, 10%, 15%, respectively. An unconfined strength test was used to obtain desired comprehensive strengths following 7, 14, 28 days of curing time. The overall experimental results revealed that MP and MPC can be added to enhance the stability of the soil. While usability and effectiveness of MPC and MP are cost-effective and eco-friendly as the substitution of natural soil for deep foundations.

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“…The use of marble waste as a partial cement replacement has been investigated aiming at the production of alternative building materials, such as concretes, mortars or pastes [11][12][13]. However, marble residue is generally used after grinding, so that finely divided particles can act as a filler in cement matrices.…”

Section: Introductionmentioning

confidence: 99%

“…On the other hand, several authors [14][15][16] reported that the marble residue played a chemical role in the hydration reactions of the cement. This performance is due to the reaction between calcium carbonate (CaCO 3 ) and tricalcium silicate (C 3 A), which can lead to the formation of hydrated calcium monocarboaluminate (Ca 4 Al 2 (CO 3 ) (OH) 12 •5H 2 O) and/or hydrated calcium hemicarboaluminate (Ca 4 Al 2 (CO 3 )0.5(OH) 13 •5.5H 2 O), which have binding properties and lead to increased compressive strength [16]. The reaction is favored; the higher are the C 3 A content of the cement, the specific surface area and the fineness of the residue [17].…”

Section: Introductionmentioning

confidence: 99%

Partial replacement of cement with granular marble residue: effects on the properties of cement pastes and reduction of CO2 emission

Gonçalves

Andrade

2020

SN Appl. Sci.

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The effects of CP V Portland cement replacement with granular marble residues were investigated. The physical-chemical properties of the starting materials and of the pastes were characterized by XRD, XRF, TG/DTA, SEM and granulometric analyses. Axial compressive strength, apparent density, capillary and total capacity of water absorption of the hardened pastes with 0, 10, 20 and 30% replacements, aged for 28 days, were characterized. The results indicated that the partial replacement by the marble residue did not affect the cement hydration but provided packaging improvements and some filler action. The reduction of CO 2 emission was estimated as 0.28 million tons per year due to replacement of 10% CP V Portland cement with the marble residue. The results indicated that this is an alternative means to reduce the CO 2 emissions in the cement industry and to reuse marble residues that otherwise could be inadequately disposed.

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Use of marble dust as paste replacement for recycling waste and improving durability and dimensional stability of mortar

Cited by 100 publications

References 36 publications

Avaliação Do Uso De Resíduos Da Indústria De Rochas Ornamentais Em Produtos De Matriz Cimentícia: Uma Revisão Sistemática

Avaliação Do Uso De Resíduos Da Indústria De Rochas Ornamentais Em Produtos De Matriz Cimentícia: Uma Revisão Sistemática

Utilization of Marble Powder and Magnesium Phosphate Cement for Improving the Engineering Characteristics of Soil

Partial replacement of cement with granular marble residue: effects on the properties of cement pastes and reduction of CO2 emission

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