Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment: Fid-Bau Portal

Fachinformationsdienst BAUdigital

Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Yusuf, Moruf Olalekan / Megat Johari, Megat Azmi / Ahmad, Zainal Arifin / Maslehuddin, Mohammed

The performance of alkaline activated ground slag/ultrafine palm oil fuel ash (AAGU) mortars upon their exposure to 6% of $H_{2} {SO}_{4 a q}$ (acid) for 60 days was investigated. The mortars were prepared with ${NaOH}_{a q}$ of varied concentrations and ${Na}_{2} {SiO}_{3 a q}$ ( ${Ms - SiO}_{2} {/ Na}_{2} O = 3.3$ ) activators and then cured at a temperature of 60°C for 24 h. The findings through strength, microstructural examination, and product characterization revealed that sulfuric acid attack could cause the disintegration of microstructure through the removal of the key elements—Ca, Mg, Na and Al—which resulted in the formation of gypsum, expansive shrinkage cracks, and a reduction in strength retention. Maintaining the slag content, concentration of ${NaOH}_{a q}$ , ${Na}_{2} {SO}_{3 a q} {/ NaOH}_{a q}$ ratio, and the mixing water content in the range of 20–40 wt.%, 8–10 M, 1.0–2.5, 5–10 wt.% of the pozzolanic materials (PMs), respectively could enhance the resistance of AAGU mortar subjected to sulfuric acid attack.

Zugriff

Zugriff prüfen

Verfügbarkeit in meiner Bibliothek prüfen

Bestellung bei Subito €

Seitennavigation

Dokumentinformationen

Ähnliche Titel

Exportieren, teilen und zitieren

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Yusuf, Moruf Olalekan / Megat Johari, Megat Azmi / Ahmad, Zainal Arifin / Maslehuddin, Mohammed

The performance of alkaline activated ground slag/ultrafine palm oil fuel ash (AAGU) mortars upon their exposure to 6% of $H_{2} {SO}_{4 a q}$ (acid) for 60 days was investigated. The mortars were prepared with ${NaOH}_{a q}$ of varied concentrations and ${Na}_{2} {SiO}_{3 a q}$ ( ${Ms - SiO}_{2} {/ Na}_{2} O = 3.3$ ) activators and then cured at a temperature of 60°C for 24 h. The findings through strength, microstructural examination, and product characterization revealed that sulfuric acid attack could cause the disintegration of microstructure through the removal of the key elements—Ca, Mg, Na and Al—which resulted in the formation of gypsum, expansive shrinkage cracks, and a reduction in strength retention. Maintaining the slag content, concentration of ${NaOH}_{a q}$ , ${Na}_{2} {SO}_{3 a q} {/ NaOH}_{a q}$ ratio, and the mixing water content in the range of 20–40 wt.%, 8–10 M, 1.0–2.5, 5–10 wt.% of the pozzolanic materials (PMs), respectively could enhance the resistance of AAGU mortar subjected to sulfuric acid attack.

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Yusuf, Moruf Olalekan / Megat Johari, Megat Azmi / Ahmad, Zainal Arifin / Maslehuddin, Mohammed

The performance of alkaline activated ground slag/ultrafine palm oil fuel ash (AAGU) mortars upon their exposure to 6% of $H_{2} {SO}_{4 a q}$ (acid) for 60 days was investigated. The mortars were prepared with ${NaOH}_{a q}$ of varied concentrations and ${Na}_{2} {SiO}_{3 a q}$ ( ${Ms - SiO}_{2} {/ Na}_{2} O = 3.3$ ) activators and then cured at a temperature of 60°C for 24 h. The findings through strength, microstructural examination, and product characterization revealed that sulfuric acid attack could cause the disintegration of microstructure through the removal of the key elements—Ca, Mg, Na and Al—which resulted in the formation of gypsum, expansive shrinkage cracks, and a reduction in strength retention. Maintaining the slag content, concentration of ${NaOH}_{a q}$ , ${Na}_{2} {SO}_{3 a q} {/ NaOH}_{a q}$ ratio, and the mixing water content in the range of 20–40 wt.%, 8–10 M, 1.0–2.5, 5–10 wt.% of the pozzolanic materials (PMs), respectively could enhance the resistance of AAGU mortar subjected to sulfuric acid attack.

Zugriff

Zugriff prüfen

Verfügbarkeit in meiner Bibliothek prüfen

Bestellung bei Subito €

Seitennavigation

Dokumentinformationen

Ähnliche Titel

Exportieren, teilen und zitieren

Dokumentinformationen

Titel:

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Beteiligte:

Yusuf, Moruf Olalekan (Autor:in) / Megat Johari, Megat Azmi (Autor:in) / Ahmad, Zainal Arifin (Autor:in) / Maslehuddin, Mohammed (Autor:in)

Erschienen in:

Journal of Materials in Civil Engineering ; 27

Erscheinungsdatum:

07.05.2015

ISSN:

0899-1561 , 1943-5533

DOI:

https://doi.org/10.1061/(ASCE)MT.1943-5533.0001315

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Unbekannt

Ähnliche Titel

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Yusuf, Moruf Olalekan / Johari, Megat Azmi Megat / Ahmad, Zainal Arifin et al. | British Library Online Contents | 2015

Evaluation of Slag-Blended Alkaline-Activated Palm Oil Fuel Ash Mortar Exposed to the Sulfuric Acid Environment

Ahmad, Zainal Arifin | Online Contents | 2015

Performance of slag blended alkaline activated palm oil fuel ash mortar in sulfate environments

Yusuf, Moruf Olalekan | Online Contents | 2015

Performance of slag blended alkaline activated palm oil fuel ash mortar in sulfate environments

Yusuf, Moruf Olalekan | British Library Online Contents | 2015

Performance of slag blended alkaline activated palm oil fuel ash mortar in sulfate environments

Yusuf, Moruf Olalekan | British Library Online Contents | 2015