RT Journal Article
T1 Influence of steel slag type on concrete shrinkage.
A1 Rubio Cintas, María Dolores
A1 Parrón-Rubio, María Eugenia
A1 Pérez-García, Francisca
A1 Ribeiro, António Bettencourt
A1 Oliveira, Miguel José
K1 Cemento - Aspectos ambientales
K1 Escoria
K1 Hormigón
AB Building construction and building operations have a massive direct and indirect effect on the environment. Cement-based materials will remain essential to supply the growth of our built environment. Without preventive measures, this necessary demand in cement production will imply a substantial increase in CO2 generation. Reductions in global CO2 emissions due to cement consumption may be achieved by improvements on two main areas: increased use of low CO2 supplementary cementitious materials and a more efficient use of Portland cement clinker in mortars and concretes. The use of ground granulated blast furnace slag in concrete, as cement constituent or as latent hydraulic binder, is a current practice, but information of concrete with ladle furnace slag is more limited. Specific knowledge of the behavior of mixtures with steel slag in relation to certain properties needs to be improved. This paper presents the results of the shrinkage (total and autogenous) of five concrete mixtures, produced with different percentages of two different slags in substitution of cement. The results show that shrinkage of concrete with the two different slags diverges. These different characteristics of the two materials suggest that their use in combination can be useful in optimizing the performance of concrete. © 2020 by the authors. Li-censee MDPI, Basel, Switzerland.
PB MDPI
YR 2020
FD 2020-12-28
LK https://hdl.handle.net/10630/32633
UL https://hdl.handle.net/10630/32633
LA eng
NO : Rubio-Cintas, M.D.; Parron-Rubio, M.E.; Perez-Garcia, F.; Bettencourt Ribeiro, A.; Oliveira, M.J. Influence of Steel Slag Type on Concrete Shrinkage. Sustainability 2021, 13, 214. https://doi.org// 10.3390/su13010214
DS RIUMA. Repositorio Institucional de la Universidad de Málaga
RD 20 ene 2026