Self-Compacting Concrete

Development of Self-Compacting Concrete For several years beginning in 1983, the problem of the durability of concrete structures was a major topic of interest in Japan. The creation of durable concrete structures requires adequate compaction by skilled workers. However, the gradual reduction in the number of skilled workers in Japan's construction industry has led to a similar reduction in the quality of construction work. One solution for the achievement of durable con- crete structures independent of the quality of construc- tion work is the employment of self-compacting con- crete, which can be compacted into every corner of a formwork, purely by means of its own weight and with- out the need for vibrating compaction (Fig. 1). The necessity of this type of concrete was proposed by Okamura in 1986. Studies to develop self-compacting concrete, including a fundamental study on the work- ability of concrete, have been carried out by Ozawa and Maekawa at the University of Tokyo (Ozawa 1989, Okamura 1993 & Maekawa 1999). The prototype of self-compacting concrete was first completed in 1988 using materials already on the mar- ket (Fig. 2). The prototype performed satisfactorily with regard to drying and hardening shrinkage, heat of hydration, denseness after hardening, and other proper- ties. This concrete was named "High Performance Con- crete" and was defined as follows at the three stages of concrete:

[1]  S Guirguis,et al.  High performance concrete , 1993 .

[2]  P. Aitcin High Performance Concrete , 1998 .

[3]  Y. Matsuoka,et al.  Property of p-1, 3-Glucan (Curdlan) as a Viscosity Agent for Super-Workable Concrete , 1997 .

[4]  Hajime Okamura,et al.  2060 Quantitative Evaluation Method for Effect of Superplasticizer in Self-Compacting Concrete , 1998 .

[5]  D. L. Marrs,et al.  Production Methods and Workability of Concrete , 2004 .

[6]  Hajime Okamura,et al.  Self-Compactable High-Performance Concrete in Japan , 1996, SP-159: International Workshop on High Performance Concrete.

[7]  Kazumasa Ozawa,et al.  "Mixture Properties of Self-Compacting, High-Performance Concrete" , 1999, "SP-172: High-Performance Concrete - Proceedings: ACI International Conference, Malaysia 1997".

[8]  Hajime Okamura,et al.  A QUANTITATIVE EVALUATION METHOD FOR THE EFFECT OF SUPERPLATICIZER , 2001 .

[9]  Hajime Okamura,et al.  A SIMPLE EVALUATION METHOD FOR INTERACTION BETWEEN COARSE AGGREGATE AND MORTAR'S PARTICLES IN SELF-COMPACTING CONCRETE , 2000 .

[10]  M. Pigeon,et al.  Deicer Salt Scaling Resistance of High-Performance Concrete , 1990, SP-122: Paul Klieger Symposium on Performance of Concrete.

[11]  T. Kawai,et al.  Effect of Superplasticizer and Viscosity-Increasing Admixture on Properties of Lightweight Aggregate Concrete , 1989, SP-119: Superplasticizers and Other Chemical Admixtures in Concrete.

[12]  Hajime Okamura,et al.  1001 A Rational Mix-Design Method for Mortar in Self-Compacting Concrete , 1997 .