Evaluation of coppe slag as aggregate addition on properties of cementitious matrix

“…Greater capillarity is expected slag-slag added concrete due the lower cement consumption, this leads to a more interconnected pores, impacting the cohesion and adhesion forces between water particles and concrete pores. For until 24 hours, all the slag-added concretes presented absorption higher than REF [27]. However, for 48 and 72h the 5 and 10% slag-added series presented lower values of water absorption, suggesting that the copper slag improved the cementitious matrix.…”

“…In general, as the higher was the cement consumption, the lower was the absorption by capillarity and the total water absorption. However, for total water, the reduction of water absorption is more effective for until 7.5%, from this amount of cement replacement, the matrix presented a lower capacity to improve the durability by water penetration [27].…”

Blasted copper slag as artificial fines in ecofriendly concrete

“…Greater capillarity is expected slag-slag added concrete due the lower cement consumption, this leads to a more interconnected pores, impacting the cohesion and adhesion forces between water particles and concrete pores. For until 24 hours, all the slag-added concretes presented absorption higher than REF [27]. However, for 48 and 72h the 5 and 10% slag-added series presented lower values of water absorption, suggesting that the copper slag improved the cementitious matrix.…”

“…In general, as the higher was the cement consumption, the lower was the absorption by capillarity and the total water absorption. However, for total water, the reduction of water absorption is more effective for until 7.5%, from this amount of cement replacement, the matrix presented a lower capacity to improve the durability by water penetration [27].…”

Blasted copper slag as artificial fines in ecofriendly concrete