Author(s)

Benson Kipkemboi¹, Benson Kipkemboi¹, Shingo Miyazawa², Shingo Miyazawa²

¹Graduate School of Engineering, Ashikaga Institute of Technology, Ashikaga, Japan.
²Department of Civil Engineering, Ashikaga Institute of Technology, Ashikaga, Japan.

Self-Compacting concrete is a concrete that is able to flow and consolidate under its own weight, completely fill the formwork even in the presence of dense reinforcement, whilst maintaining homogeneity and without the need for any additional compaction. Self-Compacting concrete is achieved by using high proportions of powder content and super?plasticizers. Due to this, pronounced thermal cracking is anticipated. Thermal cracking in concrete structures is of great concern. The objective of this research is to carry out experiments and investigate fresh and hardened properties of SCC developed using a blend of ordinary Portland cement and ground granulated blast furnace slag (GGBFS), to evaluate the applicability of Japan Concrete Institute (JCI) model?equations and?to find out any similarities and differences between Self-?Compacting concrete and normal vibrated concrete—Portland blast furnace slag concrete class B. Thermal stress analysis of the proposed Self-Compacting concrete and normal vibrated concretes were investigated by simulation using 3D FEM analysis. To carry out these objectives, concrete properties such as autogenous shrinkage, adiabatic temperature rise, drying shrinkage, modulus of elasticity, splitting tensile strength and compressive strength were determined through experiments. From experimental results, it was observed that except for the fresh properties, the hardened properties of Self-Compacting exhibit similar characteristics to those of normal vibrated concrete at almost similar water to binder ratios. It was also established that Self-Compacting concrete at W/B of 32% with a 50% replacement of ground granulated blast furnace slag has better thermal cracking resistance than SCC with 30% GGBFS replacement. It is also found that provided the relevant constants are derived from experimental data, JCI model equations can be applied successfully to evaluate hardened properties of Self-Compacting concrete.

Self-Compacting Concrete, Blended Cement, Property Analysis, Thermal Stress Analysis

Kipkemboi, B. , Kipkemboi, B. , Miyazawa, S. and Miyazawa, S. (2018) Properties and Thermal Stress Analysis of Blended Cement Self-Compacting Concrete. Open Journal of Civil Engineering, 8, 102-120. doi: 10.4236/ojce.2018.82009.