Drying shrinkage prediction model for chilean concretes

Authors

  • Carlos Aguilar Socovesa Ingeniería y Construcciones S.A (Chile)
  • Carlos Videla Pontificia Universidad Católica de Chile (Chile)

Keywords:

Drying shrinkage, prediction model, portland cement, portland pozzolan cement, admixtures

Abstract

The present research aims to develop an updating procedure of drying shrinkage prediction models for Chilean concrete made with different materials for using in design phase. The proposed methodology considers the comparison of measured and predicted shrinkage values and the calibration of current proposed models. The effect of the specimen volume surface ratio slump, aggregate and cement type, maximum size aggregate and admixture types were analyzed. A total of 82 different concrete mixes with a mean cylinder compressive strength at 28 day between 25 and 40 MPa were studied, involving 492 test specimens of different dimensions. The evolution of the drying shrinkage strains was measured up to 1350 days of drying after a water-curing period of 7 days. The applicability of the different prediction models is discussed in the light of the measured shrinkage strains. The results showed that current shrinkage models were not adequate to predict the drying shrinkage of the tested concretes in this research. An appropriate methodology to carry out the updating of the models is suggested, and an updated model to the local conditions is proposed

Downloads

Download data is not yet available.

Author Biographies

Carlos Aguilar, Socovesa Ingeniería y Construcciones S.A (Chile)

Departamento de Estudio de Proyectos Socovesa Ingeniería y Construcciones S.A., Santiago, CHILE 

Carlos Videla, Pontificia Universidad Católica de Chile (Chile)

Pontificia Universidad Católica de Chile, Santiago, CHILE 

Published

2005-08-30

How to Cite

Aguilar, C., & Videla, C. (2005). Drying shrinkage prediction model for chilean concretes. Revista Ingeniería De Construcción, 20(2), 139–152. Retrieved from https://ojs.uc.cl/index.php/ric/article/view/17053

Issue

Section

Original Research

Most read articles by the same author(s)

1 2 > >>