International Journal of Civil, Structural, Environmental and Infrastructure Engineering Research and Development (IJCSEIERD) ISSN 2249-6866 Vol.2, Issue 3, Sep 2012 98-105 Š TJPRC Pvt. Ltd.,
EFFECT OF SUPERPLASTIZER DOSAGES ON COMPRESSIVE STRENGTH OF SELF COMPACTING CONCRETE 1 1 2
RAHUL DUBEY & 2PARDEEP KUMAR
Research Scholar, Department of Civil Engineering, NIT Hamirpur, HP, India
Dean Of Studies Himachal Pradesh Technical University Hamirpur, Himachal Pradesh, India
ABSTRACT Self-compacting concrete has to fulfill contradictory requirements of high flowing ability when it is being cast and high viscosity when it is at rest, in order to prevent segregation and bleeding. These requirements make the use of mineral and chemical admixtures essential for self-compacting concrete. High flowing ability is achieved using superplasticizers, while stability against segregation is achieved either by using a large quantity of fine materials, or by using appropriate viscosity modifying agents. This paper presents the results of an experimental research carried out to investigate the effect of dosages of superplasticizer on compressive strength of self- compacting concrete.
KEYWORDS: Self-compacting concrete, superplasticizer, compressive strength. INTRODUCTION Self-compacting concrete (SCC), requires no consolidation work at site or concrete plants. The self compacting concrete was first developed in Japan to improve the reliability and uniformity of concrete in 1988 (Okamura, 1999). However, to design a proper SCC mixture is not a simple task. Various investigations have been carried out in order to obtain rational SCC mix-design methods. The establishment of methods for the quantitative evaluation of the degree of self-compactibility is the key issue in establishing the mix design system (Noor et al. 1999). Okamura and Ozawa (Okamura, 1999) have proposed a simple mixture proportioning system. In this method, the coarse and fine aggregate contents are kept constant so that self-compactibility can be achieved easily by adjusting the water/cement ratio and superplasticizer dosage only. Water/powder ratio is usually accepted between 0.9 and 1.0 in volume, depending on the properties of the powder (Noor et al. 1999, Sedran et al.1999). In Sweden, Petersson and Billberg (1999) & Emborg( 1999) developed an alternative method for mix design including the criterion of blocking, void and paste volume as well as the test results derived from paste rheology studies. Many other investigators have also dealt with the mix-proportioning problems of SCC (Sedran et al.1999, Bui et.al.1999, Roshavelov, 1999). Some design guidelines have been prepared from the acceptable test methods (EFNARC, 2002). Self compacting concrete is also made from the same basic constituents as conventional concrete, but mix proportions for SCC differ from those of ordinary concrete. The Self compacting concrete contains more powder content, less coarse aggregates, high range water reducing superplasticizer (SP) in larger amounts and frequently a viscosity modifying