Multilayer Casting of Eco-Efficient Self-Compacting Concrete with Reduced Binder Content.

Piotr Dybeł,Milena Kucharska

doi:10.3390/ma14195685

Abstract

In the study, experiments were performed on two eco-efficient self-compacting concrete mixes of reduced binder content containing supplementary cementitious materials. The behaviour of the eco-efficient self-compacting concrete (SCC) mixture was examined to determine whether it is suitable for multilayer casting. It is recommended that the SCC should be poured in an uninterrupted manner. However, it is not uncommon that contractors are forced to take breaks as a result of delivery delays. Casting the elements in multiple poorly prepared layers may cause the creation of cold joints between them. Two technological variants of the multilayer casting of eco-efficient SCC on beam elements were analysed: pouring the mixture from a minor height on the previously placed layer and placing the subsequent layer on the mechanically disturbed surface of the underlying material. Different delay times were used: 15, 30, 45 and 60 min between the execution of two layers of eco-efficient SCC. The load-bearing capacity of the joint was determined using a splitting tensile strength test on cubic elements. It was observed that, regardless of the mixture and casting variant, the interlayer bond strength decreased as the delay time increased. This effect was less pronounced when the first layer was mechanically disturbed. It was also demonstrated that concrete with reduced binder content is characterized by a lower drop in bond strength between successive layers. Finally, it is noted that the current recommendations and normative guidelines for the multilayer casting of self-compacting concrete should be specified with regard to the time delay allowed for the execution of the next layer in the absence of interference with the previously placed layer. Lack of clarity in this respect may result in the creation of a cold joint and hence a reduction in the load-bearing capacity between layers.

Highlights

The largest contribution to the negative influence of concrete lies primarily in the significant environmental imprint of Portland cement and the substantial amount of concrete production overall
A higher viscosity layer can form on the surface of the already cast self-compacting concrete (SCC) mix, which, when not properly combined with new concrete, can create unaesthetic lift lines and discolorations, but most importantly reduce the bond strength of the joint [3,4,5], which may be further intensified by hot weather conditions
This study looks into the effect of multilayer casting technology on the load-bearing capacity of a joint between layers of eco-efficient SCC based on the testing of two different mixtures

Summary

Introduction

The largest contribution to the negative influence of concrete lies primarily in the significant environmental imprint of Portland cement and the substantial amount of concrete production overall. In the case of self-compacting concrete (SCC), which is already widely used on the market, it is recommended to replace cement with supplementary cementitious materials and to reduce the amount of binder in general [2]. In the case of large-scale construction works such as high walls and considerable foundations, contractors often use multilayer casting, which involves the application of technological delays between successive layers of SCC. Such delays are usually caused by disruptions in the supply of the concrete mix. A higher viscosity layer can form on the surface of the already cast SCC mix, which, when not properly combined with new concrete, can create unaesthetic lift lines and discolorations, but most importantly reduce the bond strength of the joint [3,4,5], which may be further intensified by hot weather conditions

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Discussion

Conclusion