Use of reclaimed fly ash for the production of sustainable cementitious composites

Tomás Delgado García; Jose F. Altschwager; Alvaro Paul

doi:10.7764/RIC.00132.21

Use of reclaimed fly ash for the production of sustainable cementitious composites

Tomás Delgado García, Jose F. Altschwager, Alvaro Paul^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

This study analyzes the use of reclaimed fly ash (RFA) as an alternative cementitious material in engineered cementitious composites (ECC) mixtures. The performance of RFA-ECC is assessed by evaluating the tensile properties at 7 days, for two replacement levels of ordinary portland cement (OPC) (50% and 70%) and three polyethylene (PE) fiber contents (1.5%, 1.75%, and 2% by volume fraction). Results showed that RFA-based ECC can produce strain-hardening behavior and reach high tensile stress and strain. RFA-ECC with 50% OPC replacement and 1.5 vol.% PE fiber content exhibits average tensile strength and strain of 6.4 MPa and 8.9%, respectively. Furthermore, at 28 days, the ductile behavior remains. The study shows that RFA can be considered an alternative low carbon constituent to replace OPC in ECC mixtures, to reduce their carbon footprint, hence leading to a more sustainable cementitious composite.

Translated title of the contribution	Uso de cenizas volantes de depósito para la producción de compuestos cementicios sostenibles
Original language	English
Journal	Revista Ingenieria de Construccion
Volume	39
DOIs	https://doi.org/10.7764/RIC.00132.21
State	Published - 2024

Bibliographical note

Publisher Copyright:
© 2024 Pontificia Universidad Catolica de Chile. All rights reserved.

Keywords

ductility
engineered cementitious composites
polyethylene (PE) fibers
Reclaimed fly ash
tensile behavior

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10.7764/RIC.00132.21

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title = "Use of reclaimed fly ash for the production of sustainable cementitious composites",

abstract = "This study analyzes the use of reclaimed fly ash (RFA) as an alternative cementitious material in engineered cementitious composites (ECC) mixtures. The performance of RFA-ECC is assessed by evaluating the tensile properties at 7 days, for two replacement levels of ordinary portland cement (OPC) (50% and 70%) and three polyethylene (PE) fiber contents (1.5%, 1.75%, and 2% by volume fraction). Results showed that RFA-based ECC can produce strain-hardening behavior and reach high tensile stress and strain. RFA-ECC with 50% OPC replacement and 1.5 vol.% PE fiber content exhibits average tensile strength and strain of 6.4 MPa and 8.9%, respectively. Furthermore, at 28 days, the ductile behavior remains. The study shows that RFA can be considered an alternative low carbon constituent to replace OPC in ECC mixtures, to reduce their carbon footprint, hence leading to a more sustainable cementitious composite.",

keywords = "ductility, engineered cementitious composites, polyethylene (PE) fibers, Reclaimed fly ash, tensile behavior",

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T1 - Use of reclaimed fly ash for the production of sustainable cementitious composites

AU - Delgado García, Tomás

AU - Altschwager, Jose F.

AU - Paul, Alvaro

PY - 2024

Y1 - 2024

N2 - This study analyzes the use of reclaimed fly ash (RFA) as an alternative cementitious material in engineered cementitious composites (ECC) mixtures. The performance of RFA-ECC is assessed by evaluating the tensile properties at 7 days, for two replacement levels of ordinary portland cement (OPC) (50% and 70%) and three polyethylene (PE) fiber contents (1.5%, 1.75%, and 2% by volume fraction). Results showed that RFA-based ECC can produce strain-hardening behavior and reach high tensile stress and strain. RFA-ECC with 50% OPC replacement and 1.5 vol.% PE fiber content exhibits average tensile strength and strain of 6.4 MPa and 8.9%, respectively. Furthermore, at 28 days, the ductile behavior remains. The study shows that RFA can be considered an alternative low carbon constituent to replace OPC in ECC mixtures, to reduce their carbon footprint, hence leading to a more sustainable cementitious composite.

AB - This study analyzes the use of reclaimed fly ash (RFA) as an alternative cementitious material in engineered cementitious composites (ECC) mixtures. The performance of RFA-ECC is assessed by evaluating the tensile properties at 7 days, for two replacement levels of ordinary portland cement (OPC) (50% and 70%) and three polyethylene (PE) fiber contents (1.5%, 1.75%, and 2% by volume fraction). Results showed that RFA-based ECC can produce strain-hardening behavior and reach high tensile stress and strain. RFA-ECC with 50% OPC replacement and 1.5 vol.% PE fiber content exhibits average tensile strength and strain of 6.4 MPa and 8.9%, respectively. Furthermore, at 28 days, the ductile behavior remains. The study shows that RFA can be considered an alternative low carbon constituent to replace OPC in ECC mixtures, to reduce their carbon footprint, hence leading to a more sustainable cementitious composite.

KW - ductility

KW - engineered cementitious composites

KW - polyethylene (PE) fibers

KW - Reclaimed fly ash

KW - tensile behavior

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DO - 10.7764/RIC.00132.21

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JO - Revista Ingenieria de Construccion

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ER -

Use of reclaimed fly ash for the production of sustainable cementitious composites

Abstract

Bibliographical note

Keywords

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