A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Resistance of phosphogypsum-based supersulfated cement to carbonation and chloride ingress
https://orcid.org/0000-0002-1590-3910
https://orcid.org/0000-0002-2817-3662
Highlights The durability of SSC considering the use of phosphogypsum was evaluated. Service life of concrete structures with these cements was simulated. Concrete with SSC cement is poorly resistant to carbonation. SSC concretes performed very well in terms of resistance to chloride ingress.
Abstract The search for cements with lower CO2 emissions and lower consumption of non-renewable materials has been a challenge for the cement industry. The aim of this study was to investigate the resistance of SSC concrete to carbonation and chloride ingress. Portland cements (CEM I and CEM III/B) were used as a comparison. The results showed that the carbonation was very advanced in the SSC concretes. This is related to the exclusive formation of C-S-H and ettringite as hydration products, which present a higher rate of carbonation than portlandite. The SSC concrete has a good performance in terms of chloride penetration, mainly due to the increased ability to combine chloride ions both physically and chemically. The service life estimation showed that SSC concretes could be suitable for rural and urban environments when low w/c ratios (0.40) are used. All SSC mixtures studied were suitable for chloride environments.
Resistance of phosphogypsum-based supersulfated cement to carbonation and chloride ingress
https://orcid.org/0000-0002-1590-3910
https://orcid.org/0000-0002-2817-3662
Highlights The durability of SSC considering the use of phosphogypsum was evaluated. Service life of concrete structures with these cements was simulated. Concrete with SSC cement is poorly resistant to carbonation. SSC concretes performed very well in terms of resistance to chloride ingress.
Abstract The search for cements with lower CO2 emissions and lower consumption of non-renewable materials has been a challenge for the cement industry. The aim of this study was to investigate the resistance of SSC concrete to carbonation and chloride ingress. Portland cements (CEM I and CEM III/B) were used as a comparison. The results showed that the carbonation was very advanced in the SSC concretes. This is related to the exclusive formation of C-S-H and ettringite as hydration products, which present a higher rate of carbonation than portlandite. The SSC concrete has a good performance in terms of chloride penetration, mainly due to the increased ability to combine chloride ions both physically and chemically. The service life estimation showed that SSC concretes could be suitable for rural and urban environments when low w/c ratios (0.40) are used. All SSC mixtures studied were suitable for chloride environments.
Resistance of phosphogypsum-based supersulfated cement to carbonation and chloride ingress
https://orcid.org/0000-0002-1590-3910
https://orcid.org/0000-0002-2817-3662
Highlights The durability of SSC considering the use of phosphogypsum was evaluated. Service life of concrete structures with these cements was simulated. Concrete with SSC cement is poorly resistant to carbonation. SSC concretes performed very well in terms of resistance to chloride ingress.
Abstract The search for cements with lower CO2 emissions and lower consumption of non-renewable materials has been a challenge for the cement industry. The aim of this study was to investigate the resistance of SSC concrete to carbonation and chloride ingress. Portland cements (CEM I and CEM III/B) were used as a comparison. The results showed that the carbonation was very advanced in the SSC concretes. This is related to the exclusive formation of C-S-H and ettringite as hydration products, which present a higher rate of carbonation than portlandite. The SSC concrete has a good performance in terms of chloride penetration, mainly due to the increased ability to combine chloride ions both physically and chemically. The service life estimation showed that SSC concretes could be suitable for rural and urban environments when low w/c ratios (0.40) are used. All SSC mixtures studied were suitable for chloride environments.
Resistance of phosphogypsum-based supersulfated cement to carbonation and chloride ingress
Pinto, Sabrina R. (author) / Angulski da Luz, Caroline (author) / Munhoz, Guilherme S. (author) / Medeiros-Junior, Ronaldo A. (author)
2020-08-14
Article (Journal)
Electronic Resource
English