ABSTRACT

Accordingly, this study intends to improve the tensile and flexural strengths of HPFRCC with compressive strength of 40 MPa by admixing polymers. To that goal, the physical properties of HPFRCC are evaluated in absence and presence of polymer. Based upon the evaluation, the physical performance of HPFRCC is examined according to the change in the type and mixing ratio of polymer so as to propose the minimum mixing ratio of polymer improving the tensile and flexural strengths.