Quality Control Parameters for on-site evaluation of pumped Self-Compacting Concrete

An experimental study comprising laboratory and real scale tests was carried out to evaluate the usefulness of several pumping, early age and hardened parameters for pumped Self-Compacting Concrete (SCC) quality control. Two pumped SCC, with fly ash and limestone filler, were tested. Pumpability was...

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Bibliographic Details
Authors: Barluenga Badiola, Gonzalo|||0000-0002-2996-3412, Giménez, Mercedes, Rodríguez, Ángel, Río, Olga
Format: article
Publication Date:2017
Country:España
Institution:Universidad de Alcalá (UAH)
Repository:e_Buah Biblioteca Digital Universidad de Alcalá
Language:English
OAI Identifier:oai:ebuah.uah.es:10017/63452
Online Access:http://hdl.handle.net/10017/63452
https://dx.doi.org/10.1016/j.conbuildmat.2017.07.223
Access Level:Open access
Keyword:Quality control
Pumping
Self-Compacting Concrete
Full scale test
Early age
NDT
Arquitectura
Architecture
Description
Summary:An experimental study comprising laboratory and real scale tests was carried out to evaluate the usefulness of several pumping, early age and hardened parameters for pumped Self-Compacting Concrete (SCC) quality control. Two pumped SCC, with fly ash and limestone filler, were tested. Pumpability was controlled online by real-time measuring of pumping pressure and discharge rate. Temperature, capillary pressure, dimensional stability and P-wave ultrasonic pulse transmission (UPV) were measured simultaneously to monitor microstructure evolution at early age (EA). UPV (P- and S-waves) were also used as non-destructive testing method for hardened quality control. Pumping reduced compressive strength between 12 and 16% and changed air permeability, although did not modify porosity accessible to water. These Quality Control Parameters (QCP) showed their ability to detect the changes on material's pumping, EA and hardened performance. Accordingly, they can be used to establish acceptance limits and to identify potential issues arising from undesired changes in materials properties.