Influence of compressive loading on chloride ingress through concrete


Autoria(s): Wang, Junjie; Basheer, Muhammed; Nanukuttan, Sreejith; Bai, Yun
Data(s)

28/08/2014

Resumo

Chloride-induced corrosion of steel in concrete is one of most important durability and safety concern for reinforced concrete structures. To study chloride ingress into concrete is thus very important. However, most of the researchers focus on the studying chloride ingress through concrete samples without any loading. In reality concrete structures are subjected to different kinds of loads and therefore studying the effect of such loads on chloride transport is critical. In this work, 28 different concrete mixes were subjected to three levels of compressive load (0%, 50% and 75% of compressive failure load – f) for 24 hours. Further to unloading, these samples were subjected to non-steady state chloride diffusion test as per NT Build 443. The results were compared against the diffusion coefficient obtained for concrete samples that had no previous loading. D value for concretes subjected to 75% f showed a significant increase compared to 0% loading condition, but the increase was insignificant for 50% f. The results indicate that the influence of concrete mixes variables on D is more significant than that of loading level. Surface chloride concentration also increased with the loading level, which might be due to the increased concrete surface area caused by micro cracking.

Identificador

http://pure.qub.ac.uk/portal/en/publications/influence-of-compressive-loading-on-chloride-ingress-through-concrete(42cf0e54-628f-4b82-9829-ac74033ae0b2).html

Idioma(s)

eng

Direitos

info:eu-repo/semantics/restrictedAccess

Fonte

Wang , J , Basheer , M , Nanukuttan , S & Bai , Y 2014 , ' Influence of compressive loading on chloride ingress through concrete ' Paper presented at Civil Engineering Research in Ireland Conference (CERAI) , Belfast , United Kingdom , 28/08/2014 - 29/08/2014 , .

Palavras-Chave #structural loading #durability #chloride diffusion #cracking #/dk/atira/pure/subjectarea/asjc/2200/2205 #Civil and Structural Engineering
Tipo

conferenceObject