Redirigiendo al acceso original de articulo en 20 segundos...
Inicio  /  Buildings  /  Vol: 13 Par: 8 (2023)  /  Artículo
ARTÍCULO
TITULO

Mechanical Characterization of Geopolymer Paste and Mortar Fabricated from Alum Sludge and Fly Ash

Temple Chimuanya Odimegwu    
A. B. M. A. Kaish    
Maslina Jamil    
M. F. M. Zain    
Asset Turlanbekov and Ahmed W. Al Zand    

Resumen

This study evaluated the effect of alum sludge as an alternative to fly ash in fabricating geopolymer paste and mortar. The blending of this industrial waste (alum sludge and fly ash) is not only for the benefit of sustainable construction and disposal of industrial waste but also for the reduction of CO2 emissions due to the increasing production of Portland cement from the cement production industry. A laboratory investigation was carried out on the workability and mechanical properties of geopolymer paste and mortar produced with alum sludge replacement in different proportions (0, 10, 20, 30, 40, 50, 60, 70, 80, 90, and 100). A combination of an alkaline solution of sodium silicate and sodium hydroxide of 14 molarity was employed as an activator for the manufacturing of both paste and mortar geopolymer specimens. It was observed from the findings that geopolymer paste and mortar was flowable and workable when alum sludge is replaced for fly ash at higher replacement content. The addition of alum sludge to the mix improved some properties such as density, strength, water absorption, and the elevated temperature behavior. It was observed that the addition of alum sludge was optimum at the 50% replacement level. The addition of alum sludge up to 50% significantly increased the compressive strength of mortar (up to 80% increase in 28 days strength). The compressive strength of the paste and mortar increased with an increase in curing age. Thus, alum sludge and fly ash can be employed together in the production of eco-friendly cementing material for environmental sustainability.

Palabras claves

 Artículos similares

       
 
Haneen AlTawaiha, Fadi Alhomaidat and Tamer Eljufout    
The incorporation of nanotechnology has led to significant strides in the concrete industry, ushering in innovative construction methodologies. Various nanomaterials, including nano-silica (NS), have undergone comprehensive scrutiny as potential partial ... ver más
Revista: Infrastructures

 
Li Li, Yujie Wei, Qi Feng, Fang Liu, Bin Liu and Beichen Pu    
Molecular dynamics (MD) is an important method for studying the molecular and atomic scale of cement (geopolymer)-based composites which provides an effective method for the optimal design of cementitious materials. In this paper, the research progress o... ver más
Revista: Buildings

 
Cristina Pavon, Miguel Aldas, David Bertomeu, Harrison de la Rosa-Ramírez, María Dolores Samper and Juan López-Martínez    
Poly(butylene succinate) (PBS) is one of the contaminants in the Poly(ethylene terephthalate) (PET) recycling process. It is known that high contents of PBS in PET significantly reduce PET properties, but the effect of low contents on PET has yet to be s... ver más

 
Zofia Szweda and Dominik Czachura    
The consequences of the loss of the load-bearing capacity due to the corrosion of prestressing steel can be much more dangerous than in the case of reinforced concrete structures, since failure can occur quite rapidly and without warning. A very importan... ver más
Revista: Buildings

 
Rehab O. Abdel Rahman, Ahmed M. El-Kamash and Yung-Tse Hung    
Permeable concrete is a class of materials that has long been tested and implemented to control water pollution. Its application in low-impact development practices has proved its efficiency in mitigating some of the impacts of urbanization on the enviro... ver más
Revista: Water