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Erschienen in:
Evaluation of the Non-destructive Character of the Stiffness Damage Test for Damage Assessment of Concrete Structures Affected by Alkali-Silica Reaction Using Acoustic Emission Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Prevention of ASR in Recycled Concrete: A Literature Review

verfasst von : Yuri Mello Müller de Oliveira, Rennan Medeiros, Cassandra Trottier, Leandro F. M. Sanchez

Erschienen in: Proceedings of the 17th International Conference on Alkali-Aggregate Reaction in Concrete

Verlag: Springer Nature Switzerland

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Abstract

Recycled concrete is an alternative source of aggregates to produce eco-friendly concrete. However, some recycled concrete aggregate (RCA) sources may have been contaminated by previous deterioration mechanisms, such as alkali-silica reaction (ASR). Although it has been demonstrated that ASR-affected RCA continues to progress through secondary expansion in new concrete, the prevention approaches for ASR-affected conventional concrete may not be efficient for RCA-concrete. A Scoping Literature Review was conducted to assess the state-of-the-art of ASR prevention in RCA-concrete. Five supplementary cementitious materials (SCMs) and lithium nitrate were the most common materials used to prevent ASR in RCA-concrete, tested using five different methodologies. Since ASR-affected RCA concrete is prone to secondary induced expansion, depicting a need to characterize RCA material regarding deterioration source (i.e., reactive coarse and fine aggregate) and previous level of damage, enabling adjustment of the prevention specifications accordingly.

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Vorheriges Kapitel Reactive Aggregate Powder Used as Filler to Mitigate ASR
Nächstes Kapitel Potential Alkali-Reactivity of a Granodiorite. Expansion in Concrete Produced with Recycled Concrete Aggregate
Literatur
1.
Nehdi, M.L., Marani, A., Zhang, L.: Is net-zero feasible: systematic review of cement and concrete decarbonization technologies. Renew. Sustain. Energy Rev. 191, 114169 (2024)CrossRef
2.
Abbas, A., Fathifazl, G., Isgor, O.B., Razaqpur, A.G., Fournier, B., Foo, S.: Environmental benefits of green concrete. In: 2006 IEEE EIC Climate Change Technology Conference (2006)
3.
Pepe, M., Toledo Filho, R.D., Koenders, E.A.B., Martinelli, E.: Alternative processing procedures for recycled aggregates in structural concrete. Constr. Build. Mater. 69, 124–132 (2014)CrossRef
4.
Ginga, C.P., Ongpeng, J.M.C., Daly, Ma.K.M.: Circular economy on construction and demolition waste: a literature review on material recovery and production. Materials 13, 2970 (2020)
5.
Zhang, C., et al.: Upgrading construction and demolition waste management from downcycling to recycling in the Netherlands. J. Clean. Prod. 266, 121718 (2020)CrossRef
6.
Shi, X., Mukhopadhyay, A., Zollinger, D., Grasley, Z.: Economic input-output life cycle assessment of concrete pavement containing recycled concrete aggregate. J. Clean. Prod. 225, 414–425 (2019)CrossRef
7.
Colangelo, F., Forcina, A., Farina, I., Petrillo, A.: Life Cycle Assessment (LCA) of different kinds of concrete containing waste for sustainable construction. Buildings 8, 70 (2018)CrossRef
8.
Fanijo, E.O., Kolawole, J.T., Babafemi, A.J., Liu, J.: A comprehensive review on the use of recycled concrete aggregate for pavement construction: properties, performance, and sustainability. Clean Mater. 9, 100199 (2023)CrossRef
9.
Peng, Z., et al.: Alkali-aggregate reaction in recycled aggregate concrete. J. Clean. Prod. 255, 120238 (2020)CrossRef
10.
Trottier, C., Zahedi, A., Ziapour, R., Sanchez, L., Locati, F.: Microscopic assessment of recycled concrete aggregate (RCA) mixtures affected by alkali-silica reaction (ASR). Constr. Build. Mater. 269, 121250 (2021)CrossRef
11.
12.
Fathifazl, G., Abbas, A., Razaqpur, A.G., Isgor, O.B., Fournier, B., Foo, S.: New mixture proportioning method for concrete made with coarse recycled concrete aggregate. J. Mater. Civ. Eng. 21, 601–611 (2009)CrossRef
13.
Hayles, M., Sanchez, L.F.M., Noël, M.: Eco-efficient low cement recycled concrete aggregate mixtures for structural applications. Constr. Build. Mater. 169, 724–732 (2018)CrossRef
14.
De Souza, D.J., et al.: Influence of the mix proportion and aggregate features on the performance of eco-efficient fine recycled concrete aggregate mixtures. Materials 15, 1355 (2022)CrossRef
15.
Adams, M.P., et al.: Applicability of the accelerated mortar bar test for alkali-silica reactivity of recycled concrete aggregates. Adv. Civ. Eng. Mater. 2, 20120030 (2013)CrossRef
16.
Barreto Santos, M., De Brito, J., Santos Silva, A., Hawreen, A.: Effect of the source concrete with ASR degradation on the mechanical and physical properties of coarse recycled aggregate. Cem. Concr. Compos. 111, 103621 (2020)CrossRef
17.
Barreto Santos, M., De Brito, J., Santos, S.A.: A review on alkali-silica reaction evolution in recycled aggregate concrete. Materials 13, 2625 (2020)CrossRef
18.
Concrete materials and methods of concrete construction/Test methods and standard practices for concrete. CSA Group, Ontario (2019)
19.
Tricco, A.C., et al.: PRISMA extension for scoping reviews (PRISMA-ScR): checklist and explanation. Ann. Intern. Med. 169, 467–473 (2018)CrossRef
20.
Zega, C.J., Falcone, D.D., Marfil, S., Coelho Dos Santos, G.S., Di Maio, Á.A.: Residual alkali–silica reaction of coarse recycled concrete aggregate based on the application of a prescriptive measure from the Argentinian regulation. Eur. J. Environ. Civ. Eng. 28, 1–18 (2023)
21.
Piersanti, M., Shehata, M.H.: A study into the alkali-silica reactivity of recycled concrete aggregates and the role of the extent of damage in the source structures: evaluation, accelerated testing, and preventive measures. Cem. Concr. Compos. 129, 104512 (2022)CrossRef
22.
Barragán-Ramos, A., Ríos-Fresneda, C., Lizarazo-Marriaga, J., Hernández-Romero, N.: Rebar corrosion and ASR durability assessment of fly ash concrete mixes using high contents of fine recycled aggregates. Constr. Build. Mater. 349, 128759 (2022)CrossRef
23.
Shon, C.-S., Tugelbayev, A., Shaimakhanov, R., Karatay, N., Zhang, D., Kim, J.R.: Use of off-ASTM class f fly ash and waste limestone powder in mortar mixtures containing waste glass sand. Sustainability 14, 75 (2021)CrossRef
24.
Cassiani, J., Dugarte, M., Martinez-Arguelles, G.: Evaluation of the chemical index model for predicting supplementary cementitious material dosage to prevent the alkali-silica reaction in concrete. Constr. Build. Mater. 275, 122158 (2021)CrossRef
25.
Cassiani, J., Martinez-Arguelles, G., Peñabaena-Niebles, R., Keßler, S., Dugarte, M.: Sustainable concrete formulations to mitigate Alkali-Silica reaction in recycled concrete aggregates (RCA) for concrete infrastructure. Constr. Build. Mater. 307, 124919 (2021)CrossRef
26.
Wagner, S., et al.: Use of coarse recycled concrete aggregate in ternary blended Portland cement concrete. Transp. Res. Rec. J. Transp. Res. Board. 2674, 705–714 (2020)CrossRef
27.
Adams, M.P., Ideker, J.H.: Using supplementary cementitious materials to mitigate alkali-silica reaction in concrete with recycled-concrete aggregate. J. Mater. Civ. Eng. 32, 04020209 (2020)CrossRef
28.
29.
Johnson, R., Shehata, M.H.: The efficacy of accelerated test methods to evaluate Alkali Silica Reactivity of Recycled Concrete Aggregates. Constr. Build. Mater. 112, 518–528 (2016)CrossRef
30.
Piersanti, M., Shehata, M., Senior, S., MacDonald, C.A.: Expansion of concrete containing recycled concrete aggregate suffering different levels of Alkali-Silica reaction, pp. 109–16 (2015)
31.
Maier, P.L., Durham, S.A.: Beneficial use of recycled materials in concrete mixtures. Constr. Build. Mater. 29, 428–437 (2012)CrossRef
32.
Shehata, M.H., Mikhaeel, W., Lachemi, M., Rogers, C.: Mitigating the expansion in concrete containing reclaimed aggregate produced from demolished concrete affected by alkali-silica reaction, pp. 1229–1237 (2011)
33.
Shehata, M.H., Christidis, C., Mikhaiel, W., Rogers, C., Lachemi, M.: Reactivity of reclaimed concrete aggregate produced from concrete affected by alkali–silica reaction. Cem. Concr. Res. 40, 575–582 (2010)CrossRef
34.
Li, X., Gress, D.L.: Mitigating alkali–silica reaction in concrete containing recycled concrete aggregate. Transp. Res. Rec. 1979, 30–35 (2006)
35.
Scott, H.C., IV, Gress, D.L.: Mitigating alkali silica reaction in recycled concrete, pp. 61–76 (2004)
Metadaten
Titel
Prevention of ASR in Recycled Concrete: A Literature Review
verfasst von
Yuri Mello Müller de Oliveira
Rennan Medeiros
Cassandra Trottier
Leandro F. M. Sanchez
Copyright-Jahr
2024
Buch
Proceedings of the 17th International Conference on Alkali-Aggregate Reaction in Concrete

Print ISBN: 978-3-031-59348-2

Electronic ISBN: 978-3-031-59349-9

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-3-031-59349-9_80