Chemical resistance of eco-concrete – Experimental approach on Ca-leaching and sulphate attack

Florian R. Steindl; Andre Baldermann; Isabel Galan; Marlene Sakoparnig; Lukas Briendl; Martin Dietzel; Florian Mittermayr

doi:10.1016/j.conbuildmat.2019.06.189

Chemical resistance of eco-concrete – Experimental approach on Ca-leaching and sulphate attack

Florian R. Steindl^*, Andre Baldermann, Isabel Galan, Marlene Sakoparnig, Lukas Briendl, Martin Dietzel, Florian Mittermayr

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Angewandte Geowissenschaften (2210)
Institut für Materialprüfung und Baustofftechnologie mit angeschlossener TVFA für Festigkeits- und Materialprüfung (2060)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

The chemical resistance of eco-concrete with high levels (35–65 wt-%) of limestone substitution against Ca-leaching behaviour and sulphate attack was investigated by immersing powdered material in a 10 g L⁻¹ Na₂SO₄ solution. Time-resolved hydrochemical characterisation of the reactive solutions was coupled with chemical, structural and mineralogical characterisation of the experimental solid materials to describe and to quantify alteration phenomena like the dissolution of portlandite and AFm-phases, transformation of C-S-H gel and the precipitation of ettringite, calcite and hydrogarnet. Nucleation and crystal growth dynamics of ettringite are controlled by the availability of Ca, reactive Al, solution pH and potentially the amount of clay minerals and/or superplasticiser used in the eco-concrete material. The experimental approach allows revealing competing reaction pathways and kinetics causing concrete damage in sulphate-loaded environments and to tailor eco-concrete towards an elevated degree of chemical resistance.

Originalsprache	englisch
Seiten (von - bis)	55-68
Seitenumfang	14
Fachzeitschrift	Construction and Building Materials
Jahrgang	223
DOIs	https://doi.org/10.1016/j.conbuildmat.2019.06.189
Publikationsstatus	Veröffentlicht - 30 Okt. 2019

ASJC Scopus subject areas

Tief- und Ingenieurbau
Bauwesen
Werkstoffwissenschaften (insg.)

Fields of Expertise

Advanced Materials Science
Sustainable Systems

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10.1016/j.conbuildmat.2019.06.189

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title = "Chemical resistance of eco-concrete – Experimental approach on Ca-leaching and sulphate attack",

abstract = "The chemical resistance of eco-concrete with high levels (35–65 wt-%) of limestone substitution against Ca-leaching behaviour and sulphate attack was investigated by immersing powdered material in a 10 g L−1 Na2SO4 solution. Time-resolved hydrochemical characterisation of the reactive solutions was coupled with chemical, structural and mineralogical characterisation of the experimental solid materials to describe and to quantify alteration phenomena like the dissolution of portlandite and AFm-phases, transformation of C-S-H gel and the precipitation of ettringite, calcite and hydrogarnet. Nucleation and crystal growth dynamics of ettringite are controlled by the availability of Ca, reactive Al, solution pH and potentially the amount of clay minerals and/or superplasticiser used in the eco-concrete material. The experimental approach allows revealing competing reaction pathways and kinetics causing concrete damage in sulphate-loaded environments and to tailor eco-concrete towards an elevated degree of chemical resistance.",

keywords = "Durability, Eco-concrete, Ettringite, Leaching, Limestone, Sulphate attack",

author = "Steindl, {Florian R.} and Andre Baldermann and Isabel Galan and Marlene Sakoparnig and Lukas Briendl and Martin Dietzel and Florian Mittermayr",

year = "2019",

month = oct,

day = "30",

doi = "10.1016/j.conbuildmat.2019.06.189",

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T1 - Chemical resistance of eco-concrete – Experimental approach on Ca-leaching and sulphate attack

AU - Steindl, Florian R.

AU - Baldermann, Andre

AU - Galan, Isabel

AU - Sakoparnig, Marlene

AU - Briendl, Lukas

AU - Dietzel, Martin

AU - Mittermayr, Florian

PY - 2019/10/30

Y1 - 2019/10/30

N2 - The chemical resistance of eco-concrete with high levels (35–65 wt-%) of limestone substitution against Ca-leaching behaviour and sulphate attack was investigated by immersing powdered material in a 10 g L−1 Na2SO4 solution. Time-resolved hydrochemical characterisation of the reactive solutions was coupled with chemical, structural and mineralogical characterisation of the experimental solid materials to describe and to quantify alteration phenomena like the dissolution of portlandite and AFm-phases, transformation of C-S-H gel and the precipitation of ettringite, calcite and hydrogarnet. Nucleation and crystal growth dynamics of ettringite are controlled by the availability of Ca, reactive Al, solution pH and potentially the amount of clay minerals and/or superplasticiser used in the eco-concrete material. The experimental approach allows revealing competing reaction pathways and kinetics causing concrete damage in sulphate-loaded environments and to tailor eco-concrete towards an elevated degree of chemical resistance.

AB - The chemical resistance of eco-concrete with high levels (35–65 wt-%) of limestone substitution against Ca-leaching behaviour and sulphate attack was investigated by immersing powdered material in a 10 g L−1 Na2SO4 solution. Time-resolved hydrochemical characterisation of the reactive solutions was coupled with chemical, structural and mineralogical characterisation of the experimental solid materials to describe and to quantify alteration phenomena like the dissolution of portlandite and AFm-phases, transformation of C-S-H gel and the precipitation of ettringite, calcite and hydrogarnet. Nucleation and crystal growth dynamics of ettringite are controlled by the availability of Ca, reactive Al, solution pH and potentially the amount of clay minerals and/or superplasticiser used in the eco-concrete material. The experimental approach allows revealing competing reaction pathways and kinetics causing concrete damage in sulphate-loaded environments and to tailor eco-concrete towards an elevated degree of chemical resistance.

KW - Durability

KW - Eco-concrete

KW - Ettringite

KW - Leaching

KW - Limestone

KW - Sulphate attack

UR - http://www.scopus.com/inward/record.url?scp=85068117283&partnerID=8YFLogxK

U2 - 10.1016/j.conbuildmat.2019.06.189

DO - 10.1016/j.conbuildmat.2019.06.189

M3 - Article

AN - SCOPUS:85068117283

SN - 0950-0618

VL - 223

SP - 55

EP - 68

JO - Construction and Building Materials

JF - Construction and Building Materials

ER -

Chemical resistance of eco-concrete – Experimental approach on Ca-leaching and sulphate attack

Abstract

ASJC Scopus subject areas

Fields of Expertise

Zugriff auf Dokument

Andere Dateien und Links

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