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Erschienen in:
Comparative Analysis of Reinforcement Parameters on Yellow River Silt Solidified by MICP and EICP Technology Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Multiscale Properties of Fly Ash Modified Recycled Fine Aggregate Mortar for Stone Masonry

verfasst von : Shiwei Hou, Jinzhao Hou, Zhanwen Lai, Junyan Han

Erschienen in: Sustainable Construction Resources in Geotechnical Engineering

Verlag: Springer Nature Singapore

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Abstract

In recent years, construction and demolition wastes (CDW) have been used to produce recycled fine and coarse aggregates. However, the non-sorted presence of large quantities of crushed old concrete results in discontinuous particle gradation along with the presence of brick, mud, and wood in a portion of the CDW, renders the recycled aggregates unsuitable for recycled mortar. An effective optimization method involves the use of fly ash to replace a portion of the cement in recycled mortar to reduce the water–cement ratio and the mortar and brick interface transfer zone thickness. In this paper, we report the results of a comprehensive study on the feasibility of CDW as a fine aggregate for stone masonry. The effects of the fly ash content and natural sand substitution rate on the mechanical properties of the recycled mortar were quantified. Based on the experimental results, with an increase in the fly ash substitution rate, the 28-day compressive strength of the recycled mortar first increased and then decreased. When the substitution rate of fly ash was 20%, the strength reached a maximum value of 20.8 MPa. The results suggest that the fly ash substitution rate used in recycled mortar should be maintained at 20%, and the natural sand substitution rate should be within 20–30%.

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Vorheriges Kapitel Long-Term Drained Shear Properties of Steel Slags Mixed with Wood Chips
Nächstes Kapitel Shear Properties of Clinker Ash and Construction Generated Soil Mixtures
Literatur
1.
Zhao ZF, Remond S, Damidot D, Xu W (2015) Influence of fine recycled concrete aggregates on the properties of mortars. Constr Build Mater 81:179–186CrossRef
2.
Cuenca-Moyano GM, Zanni S, Bonoli A, Valverde-Palacios I (2017) Development of the life cycle inventory of masonry mortar made of natural and recycled aggregates. J Clean Prod 140:1272–1286CrossRef
3.
Martínez PS, Cortina MG, Martínez FF, Sanchez AR (2016) Comparative study of three types of fine recycled aggregates from construction and demolition waste (CDW), and their use in masonry mortar fabrication. J Clean Prod 118:162–169CrossRef
4.
Corinaldesi V, Giuggiolini M, Moriconi G (2002) Use of rubble from building demolition in mortars. Waste Manage 22(8):893–899CrossRef
5.
Corinaldesi V (2009) Mechanical behavior of masonry assemblages manufactured with recycled-aggregate mortars. Cem Concr Compos 31(7):505–510CrossRef
6.
Jiménez JR, Ayuso J, López M, Fernández JM, de Brito J (2013) Use of fine recycled aggregates from ceramic waste in masonry mortar manufacturing. Constr Build Mater 40:679–690CrossRef
7.
Cuenca-Moyano GM, Martín-Morales M, Valverde-Palacios I, Valverde-Espinosa I, Zamorano M (2014) Influence of pre-soaked recycled fine aggregate on the properties of masonry mortar. Constr Build Mater 70:71–79CrossRef
8.
Neno C, de Brito J, Veiga R (2014) Using fine recycled concrete aggregate for mortar production. Mater Res 17(1):168–177CrossRef
9.
Ledesma EF, Jiménez JR, Fernández JM, Galvín AP, Agrela F, Barbudo A (2014) Properties of masonry mortars manufactured with fine recycled concrete aggregates. Comput Chem Eng 71:289–298
10.
Martínez I, Etxeberria M, Pavón E, Díaz N (2016) Analysis of the properties of masonry mortars made with recycled fine aggregates for use as a new building material in Cuba. Revista De La Construcción 15(1):9–21CrossRef
11.
Andrade JO, Wenzel MC, da Rocha GH, da Silva SR (2018) Performance of rendering mortars containing sludge from water treatment plants as fine recycled aggregate. J Clean Prod 192:159–168CrossRef
12.
Sosa ME, Carrizo LE, Zega CJ, Zaccardi YAV (2018) Water absorption of fine recycled aggregates: effective determination by a method based on electrical conductivity. Mater Struct 51(5):127
13.
Ghorbel E, Wardeh G, Gomart H, Matar P (2020) Formulation parameters effects on the performances of concrete equivalent mortars incorporating different ratios of recycled sand. J Build Phys 43(6):545–572CrossRef
14.
Bouarroudj ME, Remond S, Michel F et al (2019) Use of a reference limestone fine aggregate to study the fresh and hard behavior of mortar made with recycled fine aggregate. Mater Struct 52(1):18CrossRef
15.
Saba M, Assaad JJ (2021) Effect of recycled fine aggregates on performance of geopolymer masonry mortars. Constr Build Mater 279:122461CrossRef
16.
Contrafatto L, Cosenza R, Barbagallo R, Ognibene S (2018) Use of recycled aggregates in road sub-base construction and concrete manufacturing. Ann Geophys 61(2):7785CrossRef
17.
Cuenca-Moyano GM, Martín-Pascual J, Martín-Morales M, Valverde-Palacios I, Zamorano M (2020) Effects of water to cement ratio, recycled fine aggregate and air entraining/plasticizer admixture on masonry mortar properties. Constr Build Mater 230:116929CrossRef
18.
Miranda LFR, Selmo SMS (2006) CDW recycled aggregate renderings: Part II—Analysis of the effect of materials finer than 75 μm under accelerated aging performance. Constr Build Mater 20(9):625–633CrossRef
19.
Cabrera-Covarrubias FG, Arredondo-Rea SP, Gómez-Soberón JM, Almaral-Sánchez JL, Corral-Higuera R (2015) Mechanical properties of mortars containing recycled ceramic as a fine aggregate replacement. Revista De La Construcción 14(3):22–29CrossRef
20.
Muñoz-Ruiperez C, Rodríguez A, Gutiérrez-González S, Calderón V (2016) Lightweight masonry mortars made with expanded clay and recycled aggregates. Constr Build Mater 118:139–145CrossRef
21.
Kaplan G, Turkoglu M, Bodur B, Bayraktar OY (2022) Usage of recycled fine aggregates obtained from concretes with low w/c ratio in the production of masonry plaster and mortar. Environ Dev Sustain 24:2685–2714CrossRef
22.
Silva RV, De Brito J, Dhir RK (2016) Performance of cementitious renderings and masonry mortars containing recycled aggregates from construction and demolition wastes. Constr Build Mater 105:400–415CrossRef
23.
Katz A, Kulisch D (2017) Performance of mortars containing recycled fine aggregate from construction and demolition waste. Mater Struct 50(4):199CrossRef
24.
Ledesma EF, Jimenez JR, Ayuso J, Fernandez JM, de Brito J (2015) Maximum feasible use of recycled sand from construction and demolition waste for eco-mortar production e Part-I: ceramic masonry waste. J Clean Prod 87(1):692–706CrossRef
25.
Martínez-García R, de Rojas MIS, Julia M, Pozo M, Fraile-Fernández FJ, Juan-Valdés A (2021) Evaluation of mechanical characteristics of cement mortar with fine recycled concrete aggregates (FRCA). Sustainability 13(1):414
26.
Xiao J, Li W, Corr DJ, Shah SP (2013) Effects of interfacial transition zones on the stress–strain behavior of modeled recycled aggregate concrete. Cem Concr Res 52:82–99CrossRef
Metadaten
Titel
Multiscale Properties of Fly Ash Modified Recycled Fine Aggregate Mortar for Stone Masonry
verfasst von
Shiwei Hou
Jinzhao Hou
Zhanwen Lai
Junyan Han
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Buch
Sustainable Construction Resources in Geotechnical Engineering

Print ISBN: 978-981-9992-26-3

Electronic ISBN: 978-981-9992-27-0

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-981-99-9227-0_42