A new test for combined Ca-leaching and sulphate resistance of cementitious materials

A new test for combined Ca-leaching and sulphate resistance of cementitious materials

Limitations in the understanding of chemical key controls on concrete damaging mechanisms exacerbate predictions on the long-term performance and durability of cementitious materials. Therefore, the scope of the project “ASSpC Advanced and Sustainable Sprayed Concrete” is to obtain a better mechanis...

Full description

Bibliographic Details
Main Authors: Steindl Florian R., Baldermann Andre, Galan Isabel, Sakoparnig Marlene, Dietzel Martin, Mittermayr Florian
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201819902005
id doaj-7f3d524bbf8543dcb31cecb709d74c60
record_format Article
spelling doaj-7f3d524bbf8543dcb31cecb709d74c602021-02-02T08:14:46ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011990200510.1051/matecconf/201819902005matecconf_iccrrr2018_02005A new test for combined Ca-leaching and sulphate resistance of cementitious materialsSteindl Florian R.0Baldermann Andre1Galan Isabel2Sakoparnig Marlene3Dietzel Martin4Mittermayr Florian5Graz University of Technology, Institute of Applied GeosciencesGraz University of Technology, Institute of Applied GeosciencesGraz University of Technology, Institute of Applied GeosciencesGraz University of Technology, Institute of Technology and Testing of Building MaterialsGraz University of Technology, Institute of Applied GeosciencesGraz University of Technology, Institute of Technology and Testing of Building MaterialsLimitations in the understanding of chemical key controls on concrete damaging mechanisms exacerbate predictions on the long-term performance and durability of cementitious materials. Therefore, the scope of the project “ASSpC Advanced and Sustainable Sprayed Concrete” is to obtain a better mechanistic understanding of the processes underlying deleterious chemical attacks. The herein presented alternative test, loosely following the regulations of the German Building Authority (DIBt) testing procedure (the so-called SVA test) for sulphate resistance, investigates the resistance of concrete mixes with high levels of limestone substitution (35%, 50% and 65%) against sulphate attack in a 10 g L-1 Na2SO4 solution at ambient temperature. Powdered samples were used in favour of prisms or drill cores to accelerate alteration reactions and to eliminate variations in microstructure or porosity. Based on throughout chemical and mineralogical characterisation of the experimental solutions and solid materials, we identified and traced several mineral reactions taking place in a chronological order: (1) dissolution of portlandite and Ca-leaching from C-S-H started immediately at the beginning of the experiments and provided the physicochemical conditions favourable for (2) the precipitation of massive calcite and ettringite during the advanced stage of chemical attack. Ongoing changes in the aqueous composition indicate that C-S-H dissolves incongruently and may be transformed into Si-bearing hydrogarnet. The amount of precipitated ettringite is apparently controlled by the availability of calcium, sulphate and aluminium and the precipitation rate correlates with the superplasticiser demand of the concrete mixes and with the pH of the solution during the nucleation and crystal growth stages, respectively. Our test allows distinguishing between competing reaction paths and kinetics and is capable to provide new insights into concrete damaging mechanisms in sulphate-loaded aqueous environments.https://doi.org/10.1051/matecconf/201819902005
collection DOAJ
language English
format Article
sources DOAJ
author Steindl Florian R.
Baldermann Andre
Galan Isabel
Sakoparnig Marlene
Dietzel Martin
Mittermayr Florian
spellingShingle Steindl Florian R.
Baldermann Andre
Galan Isabel
Sakoparnig Marlene
Dietzel Martin
Mittermayr Florian
A new test for combined Ca-leaching and sulphate resistance of cementitious materials
MATEC Web of Conferences
author_facet Steindl Florian R.
Baldermann Andre
Galan Isabel
Sakoparnig Marlene
Dietzel Martin
Mittermayr Florian
author_sort Steindl Florian R.
title A new test for combined Ca-leaching and sulphate resistance of cementitious materials
title_short A new test for combined Ca-leaching and sulphate resistance of cementitious materials
title_full A new test for combined Ca-leaching and sulphate resistance of cementitious materials
title_fullStr A new test for combined Ca-leaching and sulphate resistance of cementitious materials
title_full_unstemmed A new test for combined Ca-leaching and sulphate resistance of cementitious materials
title_sort new test for combined ca-leaching and sulphate resistance of cementitious materials
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Limitations in the understanding of chemical key controls on concrete damaging mechanisms exacerbate predictions on the long-term performance and durability of cementitious materials. Therefore, the scope of the project “ASSpC Advanced and Sustainable Sprayed Concrete” is to obtain a better mechanistic understanding of the processes underlying deleterious chemical attacks. The herein presented alternative test, loosely following the regulations of the German Building Authority (DIBt) testing procedure (the so-called SVA test) for sulphate resistance, investigates the resistance of concrete mixes with high levels of limestone substitution (35%, 50% and 65%) against sulphate attack in a 10 g L-1 Na2SO4 solution at ambient temperature. Powdered samples were used in favour of prisms or drill cores to accelerate alteration reactions and to eliminate variations in microstructure or porosity. Based on throughout chemical and mineralogical characterisation of the experimental solutions and solid materials, we identified and traced several mineral reactions taking place in a chronological order: (1) dissolution of portlandite and Ca-leaching from C-S-H started immediately at the beginning of the experiments and provided the physicochemical conditions favourable for (2) the precipitation of massive calcite and ettringite during the advanced stage of chemical attack. Ongoing changes in the aqueous composition indicate that C-S-H dissolves incongruently and may be transformed into Si-bearing hydrogarnet. The amount of precipitated ettringite is apparently controlled by the availability of calcium, sulphate and aluminium and the precipitation rate correlates with the superplasticiser demand of the concrete mixes and with the pH of the solution during the nucleation and crystal growth stages, respectively. Our test allows distinguishing between competing reaction paths and kinetics and is capable to provide new insights into concrete damaging mechanisms in sulphate-loaded aqueous environments.
url https://doi.org/10.1051/matecconf/201819902005
work_keys_str_mv AT steindlflorianr anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT baldermannandre anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT galanisabel anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT sakoparnigmarlene anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT dietzelmartin anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT mittermayrflorian anewtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT steindlflorianr newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT baldermannandre newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT galanisabel newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT sakoparnigmarlene newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT dietzelmartin newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
AT mittermayrflorian newtestforcombinedcaleachingandsulphateresistanceofcementitiousmaterials
_version_ 1724297597118578688

Similar Items