Role of Chloride Ion and Cation Type Accompanied by Sulfate Ion on Durability Performance of Concrete in Conjoint Chloride–Sulfate Environment: Fid-Bau Portal

Fachinformationsdienst BAUdigital

Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik

Role of Chloride Ion and Cation Type Accompanied by Sulfate Ion on Durability Performance of Concrete in Conjoint Chloride–Sulfate Environment

Shaheen, Fouzia / Pradhan, Bulu

This work assessed the durability performance of concrete made with ordinary portland cement (OPC), portland pozzolana cement (PPC), OPC $+ 20 %$ fly ash, and OPC $+ 30 %$ fly ash subjected to sulfate-only and to conjoint chloride–sulfate environments. Results indicated that the degree of surface deterioration of the concrete was mitigated in concrete specimens kept in conjoint chloride–sulfate solutions compared with those kept in sulfate-only solutions. Reduction of compressive strength of concrete decreased with the increase of NaCl concentration in conjoint chloride–sulfate solutions. Blended cement concretes had better immunity to sodium sulfate attack, whereas OPC concrete had better immunity to magnesium sulfate attack. In the presence of sulfate and conjoint chloride–sulfate ions, the formation of various compounds in concrete which produce variations in concrete compressive strength was corroborated by the results of XRD and FESEM analyses. Reduction of the compressive strength of concrete in exposure solutions decreased in the order ${MgSO}_{4} {> Na}_{2} {SO}_{4} > NaCl + {MgSO}_{4} {> NaCl + Na}_{2} {SO}_{4}$ .

Zugriff

Zugriff prüfen

Verfügbarkeit in meiner Bibliothek prüfen

Bestellung bei Subito €

Seitennavigation

Dokumentinformationen

Ähnliche Titel

Exportieren, teilen und zitieren

Role of Chloride Ion and Cation Type Accompanied by Sulfate Ion on Durability Performance of Concrete in Conjoint Chloride–Sulfate Environment

Shaheen, Fouzia / Pradhan, Bulu

This work assessed the durability performance of concrete made with ordinary portland cement (OPC), portland pozzolana cement (PPC), OPC $+ 20 %$ fly ash, and OPC $+ 30 %$ fly ash subjected to sulfate-only and to conjoint chloride–sulfate environments. Results indicated that the degree of surface deterioration of the concrete was mitigated in concrete specimens kept in conjoint chloride–sulfate solutions compared with those kept in sulfate-only solutions. Reduction of compressive strength of concrete decreased with the increase of NaCl concentration in conjoint chloride–sulfate solutions. Blended cement concretes had better immunity to sodium sulfate attack, whereas OPC concrete had better immunity to magnesium sulfate attack. In the presence of sulfate and conjoint chloride–sulfate ions, the formation of various compounds in concrete which produce variations in concrete compressive strength was corroborated by the results of XRD and FESEM analyses. Reduction of the compressive strength of concrete in exposure solutions decreased in the order ${MgSO}_{4} {> Na}_{2} {SO}_{4} > NaCl + {MgSO}_{4} {> NaCl + Na}_{2} {SO}_{4}$ .

Role of Chloride Ion and Cation Type Accompanied by Sulfate Ion on Durability Performance of Concrete in Conjoint Chloride–Sulfate Environment

Shaheen, Fouzia / Pradhan, Bulu

This work assessed the durability performance of concrete made with ordinary portland cement (OPC), portland pozzolana cement (PPC), OPC $+ 20 %$ fly ash, and OPC $+ 30 %$ fly ash subjected to sulfate-only and to conjoint chloride–sulfate environments. Results indicated that the degree of surface deterioration of the concrete was mitigated in concrete specimens kept in conjoint chloride–sulfate solutions compared with those kept in sulfate-only solutions. Reduction of compressive strength of concrete decreased with the increase of NaCl concentration in conjoint chloride–sulfate solutions. Blended cement concretes had better immunity to sodium sulfate attack, whereas OPC concrete had better immunity to magnesium sulfate attack. In the presence of sulfate and conjoint chloride–sulfate ions, the formation of various compounds in concrete which produce variations in concrete compressive strength was corroborated by the results of XRD and FESEM analyses. Reduction of the compressive strength of concrete in exposure solutions decreased in the order ${MgSO}_{4} {> Na}_{2} {SO}_{4} > NaCl + {MgSO}_{4} {> NaCl + Na}_{2} {SO}_{4}$ .

Zugriff

Zugriff prüfen

Verfügbarkeit in meiner Bibliothek prüfen

Bestellung bei Subito €

Seitennavigation

Dokumentinformationen

Ähnliche Titel

Exportieren, teilen und zitieren

Dokumentinformationen

Titel:

Role of Chloride Ion and Cation Type Accompanied by Sulfate Ion on Durability Performance of Concrete in Conjoint Chloride–Sulfate Environment

Beteiligte:

Shaheen, Fouzia (Autor:in) / Pradhan, Bulu (Autor:in)

Erschienen in:

Journal of Materials in Civil Engineering ; 32

Erscheinungsdatum:

01.07.2020

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0003319

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Unbekannt

Ähnliche Titel

Durability of Fly Ash Added Reinforced Concrete in Chloride and Composite Chloride–Sulfate Environment

Jee, Arya Anuj / Pradhan, Bulu | Springer Verlag | 2018

Effect of chloride and conjoint chloride–sulfate ions on corrosion of reinforcing steel in electrolytic concrete powder solution (ECPS)

Shaheen, Fouzia / Pradhan, Bulu | British Library Online Contents | 2015

Effect of chloride and conjoint chloride–sulfate ions on corrosion of reinforcing steel in electrolytic concrete powder solution (ECPS)

Shaheen, Fouzia / Pradhan, Bulu | Elsevier | 2015

Durability Performance of Reinforced Concrete-Based Fly Ash Exposed to Combined Chloride-Sulfate Attack

Ejbouh, Aadil ;Ech-chebab, Adil ;Hassi, Sara | Trans Tech Publications | 2023

Durability study on engineered cementitious composites (ECC) under sulfate and chloride environment

Liu, Hezhi / Zhang, Qian / Li, Victor et al. | British Library Online Contents | 2017