Add to ORKGThe performance of porous blocks containing three different reactive magnesia-based cements - namely magnesia alone, magnesium oxide: Portland cement (PC) in 1:1 ratio, cured in ambient conditions, and magnesia alone, cured at elevated carbon dioxide conditions, in hydrochloric acid and magnesium sulfate solution - was investigated. Different aggressive chemical solution conditions were used, to which the samples were exposed for up to 12 months and then tested for strength and microstructure. The performance was also compared with that of standard PC-based blocks. The results showed the significant resistance to chemical attack offered by magnesia, both alone and with PC blend in the porous blocks when cured under ambient carbon dioxide co...
The current paper presents a literature review on the studies of incorporation of magnesia (magnesiu...
With the large carbon dioxide emission in the Portland cement industry, the need to mitigate the emi...
Due to growing environmental concerns and the need to use less energy-intensive building products, a...
Reactive magnesia (MgO) cements have emerged as a potentially more sustainable and technically super...
This study focuses on reactive magnesium oxide (MgO) cements which has lower energy requirements and...
Portland Cement (PC) is known to be the most popular binder in the construction industry. However, t...
The use of reactive magnesia (MgO) as the binder in porous blocks demonstrated significant advantage...
Portland cement (PC) production is accountable for 5-7% of anthropogenic carbon dioxide (CO2) emissi...
This study investigated the performance of carbonated reactive MgO cement (RMC) and sealed MgO-SiO2 ...
One of the major durability concerns for limestone calcined clay cement (LC3) concrete is its high s...
This paper presents a literature review concerning the characteristics of MgO (magnesium oxide or ma...
This paper investigated the performance and environmental impacts of reactive magnesia cement (RMC)-...
Reactive magnesia cement (RMC) has emerged as a sustainable and technically promising novel binder b...
This study compared two binder systems composed of reactive magnesite cement (RMC) and calcined dolo...
Sustainability of modern concrete industry recently has become an important topic of scientific disc...
The current paper presents a literature review on the studies of incorporation of magnesia (magnesiu...
With the large carbon dioxide emission in the Portland cement industry, the need to mitigate the emi...
Due to growing environmental concerns and the need to use less energy-intensive building products, a...
Reactive magnesia (MgO) cements have emerged as a potentially more sustainable and technically super...
This study focuses on reactive magnesium oxide (MgO) cements which has lower energy requirements and...
Portland Cement (PC) is known to be the most popular binder in the construction industry. However, t...
The use of reactive magnesia (MgO) as the binder in porous blocks demonstrated significant advantage...
Portland cement (PC) production is accountable for 5-7% of anthropogenic carbon dioxide (CO2) emissi...
This study investigated the performance of carbonated reactive MgO cement (RMC) and sealed MgO-SiO2 ...
One of the major durability concerns for limestone calcined clay cement (LC3) concrete is its high s...
This paper presents a literature review concerning the characteristics of MgO (magnesium oxide or ma...
This paper investigated the performance and environmental impacts of reactive magnesia cement (RMC)-...
Reactive magnesia cement (RMC) has emerged as a sustainable and technically promising novel binder b...
This study compared two binder systems composed of reactive magnesite cement (RMC) and calcined dolo...
Sustainability of modern concrete industry recently has become an important topic of scientific disc...
The current paper presents a literature review on the studies of incorporation of magnesia (magnesiu...
With the large carbon dioxide emission in the Portland cement industry, the need to mitigate the emi...
Due to growing environmental concerns and the need to use less energy-intensive building products, a...